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View Full Version : Vorshlag BMW E46 M3 CSL - V8 Downforce Monster Track Car ("Chainsaw Massacre")


Fair!
04-20-2017, 04:47 PM
Project Introduction - April 20th, 2017: Welcome to another of Vorshlag's detailed Build Threads, this time chronicling possibly one of the craziest cars we have ever built. Even though its is 4/20 day, this is no drug induced delusion - what started with more of a dare has grown into a wicked track car build for one of our customers. This car is called the Chainsaw Massacre - and yes, I will try to explain the name (given by the car's owner) in the paragraphs below.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ZXJTB79/0/L/B61G0995_wide-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ZXJTB79/0/X3/B61G0995_wide-X3.jpg)
This E46 chassis getting a custom roll cage in late 2016

The goals on this build are similar to the factory 2003 BMW M3 CSL, just taken to the extreme: start with a BMW, shoot for lower weight, maximum power, maximum tire, maximum downforce, maximum brakes, maximum reliability. To that we are adding full safety gear (cage, halo seats, belts, fuel cell, fire system) and using a plentiful chassis that is easily replaced if damaged in a track event. This "big tire/big engine/big aero" combination is a simple formula which we have built around before, but this time we have a customer that understands the benefits, and very few class rules or budget restraints to hold us back! :)

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SML8cL3/0/L/B61G3332-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SML8cL3/0/X3/B61G3332-X3.jpg)
This shows where this project is in April 2017, after 5 months of work (with a few long delays waiting on parts)

Target weight is 2600 pounds soaking wet, with the ability to add ballast for series that require higher minimum weights. Target horsepower is 750 flywheel (650 whp), using a large displacement naturally aspirated aluminum LSx V8 engine. Tires chosen are "the biggest DOT Hoosiers available": 335F/345R with the ability to use a 200 treadwear tire of similar size when required. We are also using the biggest wing that AJ Hartman builds (72x14"), along with a diffuser (for when the wing isn't allowed) and a mega sized front splitter, canards, and hood venting up front. There are a few minor "street car" concessions like roll up windows, working wipers and lights, to meet the bare minimum "street car" racing series rules. There are virtually no racing class power-to-weight rules that apply to this build, but we're shooting for around a 3.5:1 to 4:1 pounds per horsepower - which is closer to a FAST sport bike than any production sports car. This E46 is built to run with McLarens on track.

https://photos.smugmug.com/Projects/BMW-E36-LS1-Alpha-car/i-DRmbgdR/0/S/e36-alpha-weight-S.jpg (https://photos.smugmug.com/Projects/BMW-E36-LS1-Alpha-car/i-DRmbgdR/0/X3/e36-alpha-weight-X3.jpg) https://photos.smugmug.com/Projects/BMW-E36-LS1-Alpha-car/i-ZrSc9wC/1/S/DSC_7493-S.jpg (https://photos.smugmug.com/Projects/BMW-E36-LS1-Alpha-car/i-ZrSc9wC/1/X3/DSC_7493-X3.jpg)

Is this just empty smack talk? Before the 'Debbie Doubters' chime in, yes, these are all attainable goals using proven components and build practices we have used in the past. Our caged, metal bodied BMW E36 coupe with an LS1/T56 drivetrain and big CCW Classics shown above (the "E36 LS1 Alpha") was 2508 pounds soaking wet.

https://photos.smugmug.com/Product-Pictures/HPR/i-BJt8zCL/0/S/IMG_0920-S.jpg (https://photos.smugmug.com/Product-Pictures/HPR/i-BJt8zCL/0/X3/IMG_0920-X3.jpg) https://photos.smugmug.com/Product-Pictures/HPR/i-xXqRtjR/0/S/IMG_0915-S.jpg (https://photos.smugmug.com/Product-Pictures/HPR/i-xXqRtjR/0/X3/IMG_0915-X3.jpg)

The power numbers used are from a proven 7.7L LS engine combination from HorsePower Research (HPR) (https://horsepower-research.com/), an engine shop that I am a part of. We already have the 468" aluminum LS shortblock built, just waiting on the heads. No, we won't be using some "destroked" high revving nonsense, but a big bored, big stroke, standard deck block with sleeves. #MURCA We have proven the effectiveness of this tire package, the aero tricks, and more on our red Mustang as well as other track cars. This BMW will be one BRUTALLY fast car that should go, stop and turn like very few other unibody street legal cars.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-m74k2NR/0/L/B61G3131-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-m74k2NR/0/X3/B61G3131-X3.jpg)

We always take pictures to update our customers during their builds anyway, so why not chronicle the builds in detail for the public? Spread the insanity far enough and we hopefully find more like-minded customers. As with most of our build threads from the past 15 years, this one will be cross-posted to a number of forums (which we either sponsor or they like us enough to let us post there), including:


Bimmerforums (https://www.bimmerforums.com/forum/showthread.php?2342748)
E46Fanatics (http://forum.e46fanatics.com/showthread.php?t=1126858)
Lateral-G (http://www.lateral-g.net/forums/showthread.php4?t=54826)
Track Junkies (https://www.trackjunkies.org/topic/5927-vorshlag-bmw-e46-m3-csl-v8-downforce-monster-track-car-chainsaw-massacre/)
Vorshlag Forum (http://www.vorshlag.com/forums/showthread.php?t=8484)


All of the pictures can be clicked for higher rez versions (#watermarked #triggered), so you can see the details. These build threads take a lot of time to put together but people seem to enjoy them, so I'm going to keep writing them up like this. If you don't like the way this is written, I'm not putting a gun to your head and making you read it.

HOW THE HELL DID WE GET HERE?

The path to this balls-out E46 V8 build wasn't a straight line - it took 2 previous cars and several years of work with this customer to get him to trust us enough to build something this crazy for him. Things like the 18x13" front wheels are borderline absurd. And while some of the pictures shown are just shown to make fun of silly fads, like #DollarBillzonDemLips, this is a serious build that will be a bit insane to drive.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dcsKgPM/0/S/B61G3230-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dcsKgPM/0/X3/B61G3230-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-h8JVkxb/0/S/DSC_7032-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-h8JVkxb/0/X3/DSC_7032-X3.jpg)

Not everyone would want a car like this, or could even drive a car this light and powerful without a bunch of electronic nannies. This idea started after Mr. Chainsaw was frustrated with his supercharged track Mustang, which had heat issues on track - just as ALL boosted track cars seem to have. Overheating, heat soaking, unusable power delivery, high weight, low reliability, and high consumable costs.

https://photos.smugmug.com/Vorshlag-Test-Pilots/James-Meeker/i-gmkpsX3/0/S/B61G6107-S.jpg (https://photos.smugmug.com/Vorshlag-Test-Pilots/James-Meeker/i-gmkpsX3/0/X3/B61G6107-X3.jpg) https://photos.smugmug.com/Vorshlag-Test-Pilots/James-Meeker/i-rCNMRs4/0/S/B61G0157-S.jpg (https://photos.smugmug.com/Vorshlag-Test-Pilots/James-Meeker/i-rCNMRs4/0/X3/B61G0157-X3.jpg)

After two years of improvements to the cooling system, packaging things to better vent the hood, and adding ever larger heat exchangers the Mustang was getting a lot better, but the weight was still fairly high and it was making for a frustrating experience on track for the owner. Just like we told him from the beginning, and what we tell everyone who wants to use a blower/turbo on track: power adders are great for making lots of horsepower for very short amounts of time, but they typically make compromised track cars. A power adder also doesn't make an engine MORE reliable... it does the opposite.

https://photos.smugmug.com/Vorshlag-Test-Pilots/James-Meeker/i-kFvk7gP/0/S/B61G0689-S.jpg (https://photos.smugmug.com/Vorshlag-Test-Pilots/James-Meeker/i-kFvk7gP/0/X3/B61G0689-X3.jpg) https://photos.smugmug.com/Vorshlag-Test-Pilots/James-Meeker/i-H7wzpVN/0/S/B61G8042-S.jpg (https://photos.smugmug.com/Vorshlag-Test-Pilots/James-Meeker/i-H7wzpVN/0/X3/B61G8042-X3.jpg)

This highly modified Mustang (which he called the Chainsaw) was run at many HPDE events as well as Optima Ultimate Street Car qualifier, where it was damned fast. The owner enjoyed the variety of contests they do during Optima events - speed stop, autocross, and time trial. So that series became a focus for a "dedicated race car" to be built in the future. Which is now.

https://photos.smugmug.com/Projects/Meekers-03-Miata-Track-Rat/i-dG7N4qR/2/S/IMG_0342-S.jpg (https://photos.smugmug.com/Projects/Meekers-03-Miata-Track-Rat/i-dG7N4qR/2/X3/IMG_0342-X3.jpg) https://photos.smugmug.com/Projects/Meekers-03-Miata-Track-Rat/i-kWP8Qz3/0/S/B61G4921-X3-S.jpg (https://photos.smugmug.com/Projects/Meekers-03-Miata-Track-Rat/i-kWP8Qz3/0/X3/B61G4921-X3-X3.jpg)

Mr Chainsaw thought about a McLaren, but wanted something that could be built faster for less, and more unique. Once we had a detailed build plan and estimate for this V8 M3, we then cautioned him that driving this car would be fairly difficult. Jason convinced him to let us build him a "trainer car" to help sharpen his skills on track. The supercharged Mustang making 640 whp and was a just a damn missile on track, using the power to pass anything on the straights.

A stock powered 1.8L NB Miata would teach him how to maximize corner speeds, braking, and patience! He set his ego aside and gave us the go in the Summer of 2015. Jason and I found this 2003 Miata and our team turned it into a trainer with full safety (cage, seat, harnesses, fire, remote kill switches), excellent suspension (MCS, Hyperco, Vorshlag + bushings, bars), upgraded brakes (NB Sport brakes, Vorshlag lines, custom cooling, G-LOC pads, Motul fluid) and track worthy wheels/tires (17x8" Enkei & 225mm Rival-S), and lots of cooling (Mishimoto rad, custom oil cooler, new water pump & hoses, etc).

https://photos.smugmug.com/Racing-Events/Drivers-Edge-MSR-C-091915/i-psKRprG/1/L/B61G2183-L.jpg (https://photos.smugmug.com/Racing-Events/Drivers-Edge-MSR-C-091915/i-psKRprG/1/X3/B61G2183-X3.jpg)

The goal of the track trainer was a super reliable car that he (and others in his family) could use to "beat on like a rented mule" at track events, to improve and refine driving skills. He hired a driving coach/data analyst as well. We built this car in 17 days and it was actually quite a fun little project to be able to do a Miata "right".

https://photos.smugmug.com/Projects/Meekers-03-Miata-Track-Rat/i-zj8D29q/0/S/IMG_2244-S.jpg (https://photos.smugmug.com/Projects/Meekers-03-Miata-Track-Rat/i-zj8D29q/0/X3/IMG_2244-X3.jpg) https://photos.smugmug.com/Projects/Meekers-03-Miata-Track-Rat/i-LMdBZBP/0/S/DSC_6811-S.jpg (https://photos.smugmug.com/Projects/Meekers-03-Miata-Track-Rat/i-LMdBZBP/0/X3/DSC_6811-X3.jpg)

Jon here at Vorshlag did the graphics (stripes, number boards, etc) on the Miata. Notice the chainsaw wielding mouse wearing a "Texas Chainsaw Massacre" movie-style hockey mask? You guessed it - this car is called Chainsaw Mouse, and the "Texas Chainsaw Massacre" theme carried over into the V8 M3 CSL we are now building. The owner has been running this Miata for two seasons while the build plan for the E46 solidified, we found a good chassis, and carved out time in our shop schedule to dedicate to the build. Our head fabricator Ryan is doing 95% of the work on this project while also juggling the the '69 Camaro track car build (http://www.vorshlag.com/forums/showthread.php?t=8393), plus does all of our cage fab work.

BMW E46: THE PERFECT DONOR CHASSIS?

Some might not agree with using an E46 M3 Coupe chassis for a wild track build, but let me explain. While we could have started with a C5/C6/C7 Corvette chassis and made something equally as fast, and it might have even been "easier", that wasn't the right car to start with on this project. Why? The customer's wife already had a supercharged C7 Z06, and while its fun and fast, the "Corvette solution" isn't everyone's solution.

While modern Corvettes have plenty of benefits, the also come with a few downsides: a SMALL cockpit, very low seating position, somewhat poor visibility, and extreme difficulties in adding a proper roll cage to the chassis (they don't even have a real floor). We can also make a steel unibody BMW lighter than a full frame/composite bodied C4-C7 Corvette for the same amount of weight removal work ("body on frame" technology is one of the least efficient ways to build a light/rigid chassis). Besides, you can't swing a dead cat at a track event and not hit 30 Corvettes. The roll cage issues are real. Corvettes are easily the most difficult car we build cages for due to the cockpit and greenhouse shape and difficult to access mounting points.

https://photos.smugmug.com/Racing-Events/MSR-C-Test-112516/i-KWRHkwL/1/S/IMG_4084-S.jpg (https://photos.smugmug.com/Racing-Events/MSR-C-Test-112516/i-KWRHkwL/1/M/IMG_4084-M.jpg) https://photos.smugmug.com/Projects/1992-Corvette-TTC-Build/i-SfB5r8m/0/S/B61G0796-S.jpg (https://photos.smugmug.com/Projects/1992-Corvette-TTC-Build/i-SfB5r8m/0/X3/B61G0796-X3.jpg)
To build a safe roll cage away from the driver on a C4/5/6/7 Corvette you often have to move bars OUTSIDE of the body

After several discussions we narrowed in on a BMW E46 Coupe to start with, for a number of reasons. We think the modern BMW 1 and 3 series chassis are unique in their ability to become excellent track cars with V8 swaps, and they can take a LOT of power. We've proven that with the E36, E46 and E90 chassis many times.

https://photos.smugmug.com/Customer-Cars/Eric-E92-Coyote-50/i-3PZWckN/2/S/DSC_3820-S.jpg (https://photos.smugmug.com/Customer-Cars/Eric-E92-Coyote-50/i-3PZWckN/2/X3/DSC_3820-X3.jpg) https://photos.smugmug.com/Projects/McCalls-BMW-E367-M-Roadster/i-4dHWmpr/0/S/_DSC0781-S.jpg (https://photos.smugmug.com/Projects/McCalls-BMW-E367-M-Roadster/i-4dHWmpr/0/X3/_DSC0781-X3.jpg)
Left: The BMW E90 swallows a Coyote 5.0L V8. Right: BMW E36/7 Z3 with LS1. Both built or heavily reworked at Vorshlag

Here's the list of positives with the E46 chassis.

1. Strong, lightweight unibody chassis with "good bones" to build upon. The roof panel is easily replaced with carbon (and the CSL came with carbon from the factory), as are almost all other body panels - and there are good options from the aftermarket. BMW made 4 million E46 chassis globally, which makes them both abundant and cheap.

2. The interior room, ergonomics, seating position and visibility are superior to most low slung "sports cars". These give you an upright seating position that is favored by many drivers. You don't "lay down in a coffin" like in a Corvette since the BMW passenger compartment is fairly large and spacious. This lets us build a roll cage much further away from the driver, which increases safety and comfort and gives us better entrance/egress.

https://photos.smugmug.com/Projects/Vorshlag-E46-330Ci-DSP-Build/i-FCVtMXh/0/L/SigJPG32_DSC1783%20copy-L.jpg (https://photos.smugmug.com/Projects/Vorshlag-E46-330Ci-DSP-Build/i-FCVtMXh/0/X3/SigJPG32_DSC1783%20copy-X3.jpg)

3. These cars have a fairly efficient aerodynamic shape for such an upright greenhouse. It has a sleek coupé styled body with a short trunk, long hood, and generous cabin. The look of the E46 coupe is more modern and timeless than the E36 which is more angular and becoming a bit dated.

4. The E46 engine bay is 2" wider than the E36 and easily swallows an LS V8, and the stock transmission tunnel accommodates a large T56 transmission.

5. The suspension is pretty good (McStrut front, independent rear suspension), it has decent wheel/tire room (especially the M3), and the brakes are not half bad (with excellent upgrade options). Of course we won't leave any of these items stock.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-jvwFqKB/1/S/IMG_0581-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-jvwFqKB/1/X3/IMG_0581-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-V7ZNXhW/1/S/IMG_0585-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-V7ZNXhW/1/X3/IMG_0585-X3.jpg)

We started hunting for a 2003 BMW E46 M3 coupe chassis (the same year they made the M3 CSL) and found this one locally for a good price in late 2015. Once the project got underway (Winter 2016) we began by cleaning it up and getting the frame checked before real work began. The early build details follow below.

REINFORCING, STRIPPING AND CHECKING THE CHASSIS

This chassis was already partially stripped and had "seem some fun" in it's past, so it needed a good inspection, some squaring up, then a few preventative reinforcement fabrication tasks before major upgrades got underway. First we took the M3 to our friend's bodyshop to put on his chassis table, check the diagonals, and square it up before we began the roll cage installation. Then we reinforced a number of common weak sports on the unibody. After that we began to strip the interior in preparation for the roll cage, even removed the roof to replace it with a replica CSL carbon version.

continued below

Fair!
04-20-2017, 04:54 PM
continued from above

SQUARING UP THE CHASSIS

The two main series that this car will be competing in don't require a roll cage, but its a damned good idea when you are planning something this fast. Before you want to ever put an elaborate, welded roll cage structure into any car you want to make sure the chassis is square and true. Nothing worse than caging a bent chassis - you just wasted a lot of time and ruined the tub.

We knew this car had a light front hit at some point, as it was missing most of the front sheet metal that bolted on: bumper, bumper cover, lights, radiator support, plus and the hood & front fenders were a bit munched. Otherwise it looked like a solid, rust free M3 chassis with the M3 specific front spindles, rear subframe and rear fenders.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gHjz7f7/0/S/IMG_0973-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gHjz7f7/0/X3/IMG_0973-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-v6HsD5h/3/S/IMG_0906-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-v6HsD5h/1/X3/IMG_0906-X3.jpg)

In late summer 2016 I delivered this Coupe chassis to our friends at Heritage Collision Center in Sherman, Texas for an inspection and squaring up. I also brought them a new factory front radiator support to install and align into the "front doghouse" of this car.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NjW2NMG/0/L/DSC_4897-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NjW2NMG/0/X3/DSC_4897-X3.jpg)

They put it on their frame table and measured diagonals on known chassis points against BMW factory data. After a few tugs it was square and ready for the front radiator support, which they installed and trued up as well. I picked it up and brought it back to Vorshlag so we could begin.

REAR SUBFRAME REINFORCEMENT

Once the chassis was trued up we had a bit of a wait while the schedule cleared up and the owner was ready to really begin this project. We did sneak in the rear subframe reinforcement work early on before we "officially" began. This is where we beef up the rear subframe mounts at the chassis, which is a factory approved fix for an issue they acknowledged on the E46 chassis. We did this work when we had a tech "under tasked" for a couple of days, back in the Summer of 2016.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gwpcRDd/0/L/MSR%20Test%20%20%2883%29-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gwpcRDd/0/X3/MSR%20Test%20%20%2883%29-X3.jpg)

The BMW E46 chassis' primary weakness is in the trunk floor right where the rear subframe mounts. There is a lot of flex in the rubber subframe bushings which allows for constant movement. Over time this slide-hammer like movement can cause fatigue cracks in the sheet metal mounts. If the cracks are ignored long enough it can cause failure of the mounting areas.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-n2HpjT9/0/S/MSR%20Test%20%20%2884%29-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-n2HpjT9/0/X3/MSR%20Test%20%20%2884%29-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3pM2pm2/0/S/MSR%20Test%20%20%2885%29-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3pM2pm2/0/X3/MSR%20Test%20%20%2885%29-X3.jpg)

Donnie put the M3 on a 2-post lift and removed the rear subframe assembly, which holds the differential housing and the rear suspension. Normally when doing this E46 reinforcement job we would remove the sloppy rubber factory mounting bushings for the subframe and diff and replace them with aluminum or polyurethane. We actually procured a second complete E46 M3 subframe for this car, since we had major modifications in mind for those bits. So the stock rubber bushings were untouched at this point.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-kVzWLtg/0/S/MSR%20Test%20%20%2886%29-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-kVzWLtg/0/X3/MSR%20Test%20%20%2886%29-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rLqScjb/0/S/MSR%20Test%20%20%2887%29-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rLqScjb/0/X3/MSR%20Test%20%20%2887%29-X3.jpg)

With the subframe assembly removed we can finally inspect the trunk floor mounting points. Then the paint, seam sealer, and undercoating materials are removed from these areas where the plates will be welded - our air powered OBX "Crud Buster" tool makes quick work of these coatings. The reinforcement plates are CNC laser cut and bent pieces we source from CSM. These have a much larger footprint than some other reinforcement plates we have used. The CSM plates cover more area, which better covers some of the larger cracks we have seen in these cars.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-D4BFV68/0/S/DSC_3392-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-D4BFV68/0/X3/DSC_3392-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3MJNCTX/0/S/DSC_3394-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3MJNCTX/0/X3/DSC_3394-X3.jpg)

This time the cracks were visible before removing the paint - they had propagated a good ways. Luckily we only found cracks in one of the four mounting positions, which is pretty good for an E46 of this age. Often we see cracks are all 4 points of contact. In the dozens of E46 cars we have done this work to only once did we find a car without any cracking. Like I said, its the primary weakness of this car, but easily fixed and reinforced.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WqqJvg5/0/S/DSC_3396-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WqqJvg5/0/X3/DSC_3396-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-64VP2DD/0/S/DSC_3408-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-64VP2DD/0/X3/DSC_3408-X3.jpg)

Before the reinforcement plates are welded on we have to "drill stop" the cracks and TIG weld them for a proper repair. The small drilled holes at the end of the cracks removes stress from the sheet metal and keeps the cracks from propagating while they are being welded up.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-JwvMRzG/0/S/DSC_3407-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-JwvMRzG/0/X3/DSC_3407-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sWTvFLQ/0/S/DSC_3411-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sWTvFLQ/0/X3/DSC_3411-X3.jpg)

Once all of the cracks were repaired, then all four plates were TIG welded to the chassis, it was time for seam sealer, primer and some paint. Once the paint dried the stock rear subframe assembly was bolted back in place, to allow the car to roll around. In the end it took about 11 hours + $250 in materials to get these areas properly repair and reinforced, but they should be good for life now. We had big upgrade plans for the second M3 subframe we purchased for this car, which I will show in a later post.

FRONT STRUT TOWER REINFORCEMENT

The second common weak point on the E46 chassis, as with many McPherson strut cars, is in the actual strut towers. The sheet metal is a bit on the thin side and virtually all of the vertical suspension loads pass through the strut and into the chassis via these two towers. With a big enough impact you can deform or crack the sheet metal here. It's even worse with sticky race tire loads. Sometimes the towers develop cracks simply from fatigue - again, soft bushings allow for a lot of extra squishy movement, which flexes the metal over time.

Below is a common upgrade we do on many BMW chassis, where we reinforce the tops of the strut towers. The damage shown on the silver E46 M3 track car below is a perfect example of why this work is needed.

https://photos.smugmug.com/Customer-Cars/Jon-Holmans-2003-BMW-e46-m3/i-Q22xgdZ/0/S/DSC_5129-S.jpg (https://photos.smugmug.com/Customer-Cars/Jon-Holmans-2003-BMW-e46-m3/i-Q22xgdZ/0/X3/DSC_5129-X3.jpg) https://photos.smugmug.com/Customer-Cars/Jon-Holmans-2003-BMW-e46-m3/i-6ZL8krx/0/S/P1310139_text-S.jpg (https://photos.smugmug.com/Customer-Cars/Jon-Holmans-2003-BMW-e46-m3/i-6ZL8krx/0/X3/P1310139_text-X3.jpg)

This customer saw the tower reinforcements done on the Chainsaw Massacre E46 M3 CSL-clone and wanted the same thing done to his dedicated M3 track car. Good thing, too - when we pulled the strut tower brace off we found a series of massive cracks hidden from view, which you can see above.

https://photos.smugmug.com/Customer-Cars/Jon-Holmans-2003-BMW-e46-m3/i-KWZNvBL/0/S/P2020138-S.jpg (https://photos.smugmug.com/Customer-Cars/Jon-Holmans-2003-BMW-e46-m3/i-KWZNvBL/0/X3/P2020138-X3.jpg) https://photos.smugmug.com/Customer-Cars/Jon-Holmans-2003-BMW-e46-m3/i-RSvPm69/0/S/DSC_6434-S.jpg (https://photos.smugmug.com/Customer-Cars/Jon-Holmans-2003-BMW-e46-m3/i-RSvPm69/0/X3/DSC_6434-X3.jpg)

The cracks were each "drill-stopped", TIG welded, sanded smooth, then a pair of the BMW E46 reinforcement plates were welded into the towers from underneath - effectively doubling the thickness here. The areas were primed and the car went back on track.

Before the color matched paint arrived to re-shoot the tops of the towers this car was in a track incident. This snapped the right front Bilstein Club Sport inverted strut like a twig, ripped the tie rod out, and broke the control arm and wheel - but the strut tower was fine. I can say with confidence that this reinforcement work saved this strut tower from total annihilation. Doubling the thickness of metal here is key.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2j3jb59/0/S/DSC_5669-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2j3jb59/0/X3/DSC_5669-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Wq749ZS/0/S/DSC_5670-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Wq749ZS/0/X3/DSC_5670-X3.jpg)

Back to the E46 M3 CSL build - Ryan started by pulling the stock front suspension off and out of the way. Then we ordered these stamped steel E46 strut tower reinforcement plates from BMW (Part # 51717036781 ), which are rounded and match the shape of the E46 strut tower from underneath. These are often just slipped in and bolted between the strut tower and the top mount, but we would weld them on for more strength and longevity.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-j47sfQZ/0/S/B61G1152-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-j47sfQZ/0/X3/B61G1152-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-s9PNvb2/0/S/B61G1164-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-s9PNvb2/0/X3/B61G1164-X3.jpg)

The paint was stripped off the top of the strut towers with our OBX stripper tool. Then the reinforcement plate was bolted in using a fixture and TIG welded around the round opening at the top and along the slotted strut tower holes. There was some prior damage to the lip of the strut tower opening that we repaired and now looks new.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Tf5xVLT/0/S/B61G1167-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Tf5xVLT/0/X3/B61G1167-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-KnHCSq4/0/S/B61G1178-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-KnHCSq4/0/X3/B61G1178-X3.jpg)

The paint was also stripped from the underside of the tower and from the reinforcement plate. Ryan MIG welded the plate to the tower from underneath with 6 stitch welds as shown. These areas were then covered with seam sealer and primer paint.

SEAT TESTING + STRIPPING THE INTERIOR & ENGINE BAY

In preparation for the roll cage and seat mounting we needed to get the chassis completely stripped and ready for welding. Since this was a "complete build" we tackled the additional work of removing all of the body wiring, tar insulation, and even some unnecessary unibody structure. When you are looking for hundreds of pounds of weight loss you have to chase every pound!

https://photos.smugmug.com/Product-Pictures/Sparco-Seats/i-VMdJfbj/1/S/B61G9212-S.jpg (https://photos.smugmug.com/Product-Pictures/Sparco-Seats/i-VMdJfbj/1/X3/B61G9212-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nK2Xwzr/0/S/DSC_4370-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nK2Xwzr/0/X3/DSC_4370-X3.jpg)

We had Mr Chainsaw test sit various racing seats in our lobby. He liked the Sparco Circuit II seat (https://vorshlag.smugmug.com/Product-Pictures/Sparco-Seats/i-VMdJfbj), which have an integral halo section to prevent side impact neck injuries and high leg bolstering. I also like this seat and have it in one of our shop cars. After we test fit one in this car, I ordered two new seats from Sparco for this build.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-kmvB7B4/0/L/DSC_4849-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-kmvB7B4/0/X3/DSC_4849-X3.jpg)

The work of removing the dash, wiring, and plumbing from the car to get it down to a bare rolling chassis takes time. It isn't super exciting work but it is all necessary when you are looking to minimize weight as much as we are here. "Just leave the stock wiring harness" might be appropriate for some builds, but not one this extreme.

continued below

Fair!
04-20-2017, 05:07 PM
continued from above

Between the engine goals and potential cornering loads (Hoosiers + full aero), a dry sump oiling system was decided early on.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LLWS3sp/0/S/DSC_4833-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LLWS3sp/0/X3/DSC_4833-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-46PXCWJ/0/S/DSC_4851-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-46PXCWJ/0/X3/DSC_4851-X3.jpg)

Ryan test fit an oil settling tank we had from another project under the M3's dash, but it just wasn't the right place for this chassis (it will go in the back seat area instead). Then the tedious job of removing the steering column, HVAC box, and dash assembly was tackled. Its all gotta come out for cage work...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-L7Scwms/0/S/DSC_4867-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-L7Scwms/0/X3/DSC_4867-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-f2HHfTr/0/S/DSC_4866-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-f2HHfTr/0/X3/DSC_4866-X3.jpg)

This outer dash skin came out cleanly and will be reinstalled after the cage is built. The steel OEM dash bar structure was removed and will be replaced with a horizontal tube, connected under the "skin" of the dash, to joint the front of the roll cage. We will have to replicate a lot of these little hidden brackets to hold the top skin of the dash in place afterwards, but that's how you save more pounds - little bits at a time.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-QWCR8mf/0/S/B61G0574-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-QWCR8mf/0/X3/B61G0574-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rV54qX3/0/S/DSC_4824-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rV54qX3/0/X3/DSC_4824-X3.jpg)

The front windshield and back glass came out next. Since we planned to re-use the front windshield (it was un-pitted and perfect) we hired a professional windshield installer to remove these two pieces of glass. This allows more access to build the roll cage as well as roof panel removal (more on that below).

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-FbKKJJr/0/S/DSC_4881-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-FbKKJJr/0/X3/DSC_4881-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4v9ZrHJ/0/S/DSC_5022-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4v9ZrHJ/0/X3/DSC_5022-X3.jpg)

After the dash structure and skin came out, this giant rats nest of wires (above left) was left behind. Yes the main body wiring harness was completely removed. We would have to pare this down so far that it makes more sense to replace it with a more streamlined, custom built chassis wiring harness. This harnesses was later weighed and it came to 49.4 pounds of wire, just from behind the firewall. This includes the giant cluster of wires under the dash, under the carpet, and in the trunk area.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rzbPHVk/0/S/DSC_4896-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rzbPHVk/0/X3/DSC_4896-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-QHGLRtV/0/S/DSC_4953-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-QHGLRtV/0/X3/DSC_4953-X3.jpg)

The engine bay was already partially stripped, as this car had no drivetrain or engine wiring harness when we bought it. But the rest of the underhood clutter had to come out, as nothing OEM was being re-used up there.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Vj3C3rb/0/S/DSC_4970-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Vj3C3rb/0/X3/DSC_4970-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RkZ4LbD/0/S/DSC_5026-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RkZ4LbD/0/X3/DSC_5026-X3.jpg)

The brake and clutch master cylinders, brake booster, ABS module, brake hard lines, and all sorts of plastic panels were removed and scrapped. At this point the engine bay was mostly stripped but even more brackets and panels would be removed later.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VF2cHrW/0/S/DSC_4850-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VF2cHrW/0/X3/DSC_4850-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-38ZS9hf/0/M/DSC_4895-M.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-38ZS9hf/0/X3/DSC_4895-X3.jpg)

Many of the old parts were stored on a wire shelving unit. This way anything we need to re-use is kept together with the rest of the customer's parts. These can be rolled away and stored when not needed.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3fRgwpK/0/L/DSC_4898-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3fRgwpK/0/X3/DSC_4898-X3.jpg)

At this point the interior looks pretty barren. But we're not stopping here. No, NO! WE NEED MOAR!!!

INTERIOR INSULATION REMOVAL

We were looking for every pound, remember? Next up was the heavy asphalt/tar sound insulation panels stuck all over the interior and trunk areas. These materials are a chore to remove, but it adds up.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-K47ZtCn/0/S/DSC_4915-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-K47ZtCn/0/X3/DSC_4915-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mDPh9fs/0/S/DSC_4912-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mDPh9fs/0/X3/DSC_4912-X3.jpg)

A heat gun + a variety of scrapers + lots of elbow grease are the best way to remove this stuff from a BMW. Trust me, we've tried all of the methods - freezing with dry ice, power tools with wire wheels, and sandblasting - and the heat gun is the cleanest, fastest way for the BMW insulation.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5GqFSwm/0/S/B61G0607-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5GqFSwm/0/X3/B61G0607-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-tSsnBcJ/0/S/DSC_5025-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-tSsnBcJ/0/X3/DSC_5025-X3.jpg)

17.7 pounds of tar paper came out of the interior and trunk. But it left behind this tacky adhesive goo....

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-JmrLCsn/0/S/DSC_5036-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-JmrLCsn/0/X3/DSC_5036-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nbSSgLg/0/S/DSC_5032-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nbSSgLg/0/X3/DSC_5032-X3.jpg)

The car still rolls at this point so it was shoved outside and the electric pressure washer was used to blast every surface of the chassis, inside and out. 2500 psi gets all the dirt and grease off the chassis, but it won't make a dent in the adhesive residue.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-BdKN3qc/0/L/DSC_5041-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-BdKN3qc/0/X3/DSC_5041-X3.jpg)

Over the years we have tried numerous degreasers and petroleum products and found that soaking the adhesive with mineral spirits works like a charm. It softens the adhesive enough to wipe it away, but doesn't damage the paint. Of course we're going to paint this entire chassis inside and out later, but having bare metal during the build process might allow it to flash rust. So .... heat gun + mineral spirits works best on this stuff.

ROOF STRUCTURE REMOVAL + CARBON ROOF PANEL

We still weren't ready to start the roll cage, and needed to do something about the power moon roof that was in the way.

https://photos.smugmug.com/Projects/Vorshlag-Garage-BMW-E46/i-sNvMgpv/0/S/B61G6704-S.jpg (https://photos.smugmug.com/Projects/Vorshlag-Garage-BMW-E46/i-sNvMgpv/0/X3/B61G6704-X3.jpg) https://photos.smugmug.com/Projects/Vorshlag-Garage-BMW-E46/i-Skpjp8M/0/S/B61G6709-S.jpg (https://photos.smugmug.com/Projects/Vorshlag-Garage-BMW-E46/i-Skpjp8M/0/X3/B61G6709-X3.jpg)
Left: 72.0 pound factory sunroof cassette. Right: AJ Hartman carbon sunroof delete panel at 1.4 pounds

Like most E46 BMWs, this one had a factory retractable sunroof option. The non-M E46 almost always has a sunroof, but a few E46 M3s came without a sunroof - including the CSL.

https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-wFLhw2q/0/S/DSC_2562-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-wFLhw2q/0/X3/DSC_2562-X3.jpg) https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-jLdRfcM/0/S/DSC_2561-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-jLdRfcM/0/X3/DSC_2561-X3.jpg)

The 72 pound power sunroof assembly (they call it a cassette) is not only a heavy thing but it gobbles up head room in these cars. We had talked early on about a carbon fiber sunroof delete panel, which we have done on a number of E46 chassis to knock weight out of the roof while gaining 2.5+ inches of headroom (like my E46 330Ci above). Another AJ Hartman pieces that is an easy "bolt-in" replacement you can swap in over a couple of hours.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-H4DZtwR/0/S/DSC_4967-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-H4DZtwR/0/X3/DSC_4967-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sJ5NXjG/0/S/DSC_4975-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sJ5NXjG/0/X3/DSC_4975-X3.jpg)

Since this is a 2003 BMW M3 CSL clone of course we have to use the CSL's full carbon fiber roof panel, duh! We had AJ Hartman make an exact replica of this CSL roof panel, which Mr Chainsaw agreed was more appropriate for this build. Ryan started the roof swap by removing the two roof seam covers, then drilled out spot welds with a small spot weld cutter.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2bDbRSN/0/S/DSC_4982-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2bDbRSN/0/X3/DSC_4982-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2G6DMCL/0/S/DSC_4985-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2G6DMCL/0/X3/DSC_4985-X3.jpg)

Ryan received some help from our CNC operator, also named Ryan aka: "R3". The two Ryans then finished removing the 100+ spot welds around the perimeter of the factory steel roof panel, prying the glue loose after these spots were carefully cut through. The front and rear glass removal was crucial in this step; the roof came off in a little under 6.5 hours.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2xDTLM5/0/S/B61G0662-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2xDTLM5/0/X3/B61G0662-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RXTmdM2/0/S/DSC_5006-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RXTmdM2/0/X3/DSC_5006-X3.jpg)

The OEM roof weighed 96.1 pounds (24.1 for panel + 72.0 for sunroof cassette). The new AJ Hartman carbon fiber roof came in at 6.9 pounds, for a total savings of 89.2 pounds - way up high in the roof! Not only did we lose the equivalent mass of a "young adult" the interior gained about 2.5" of headroom. We also had ample access for building the roll cage.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rZCPkNn/0/S/DSC_5008-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rZCPkNn/0/X3/DSC_5008-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DCQ6zmD/0/S/DSC_5009-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DCQ6zmD/0/X3/DSC_5009-X3.jpg)

The CSL carbon roof panel went on easily and bolts in place using 4 factory threaded bolt holes, which fit the roof section perfectly. Ryan had to do zero adjustment, custom fitting, or hole enlargement - it just fit.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-xFX4mHZ/0/L/B61G0670-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-xFX4mHZ/0/X3/B61G0670-X3.jpg)

Once the cage work is finalized and before paint this will be bonded to the body structure just like the factory E46 M3 CSL roof is, plus there are the four back-up bolts as well.

INTERIOR UNIBODY STRUCTURE REMOVAL

The back seat was never going to be used in this build, so to lose some additional weight we looked at the rear seat bulkhead structure and decided to remove it before the cage began. There is a lot of easy weight that can be removed from the back seat, and in our 2001 BMW E46 330Ci we found 63.8 pounds in the back seats + headliner (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-9DqPQFj/0/M/B61G0527-M.jpg) and another 10.4 pounds in rear speakers and a few trunk brackets (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-8TnCsLm/0/M/B61G0518-M.jpg).

https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-SJW7XGx/0/S/DSC_0773-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-SJW7XGx/0/X3/DSC_0773-X3.jpg) https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-9DqPQFj/0/S/B61G0527-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-9DqPQFj/0/X3/B61G0527-X3.jpg)

Compared to my 330, this M3 needed an even sharper scalpel this time. We weren't looking to "skin" this car and put it down over a tube chassis or anything, but redundant structures that could be removed would be. There was some easy weight loss in the rear seat bulkhead perimeter structure and rear window "speaker deck" panel - which would have their chassis stiffness more than replaced with roll cage structure. We will make lightweight interior panels to separate the trunk from the passenger cabin.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nqjbtV6/0/S/DSC_5072-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nqjbtV6/0/X3/DSC_5072-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-BbcTCQP/0/S/DSC_5074-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-BbcTCQP/0/X3/DSC_5074-X3.jpg)

There were probably another hundred spot welds that were cut for all of these brackets, panels and sheet metal structures in the back seat area. These were cut into small pieces with a reciprocating saw and pried loose without warping or damaging the surrounding structures.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pd7nP3Z/0/S/DSC_5092-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pd7nP3Z/0/X3/DSC_5092-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cGtJVLv/0/S/DSC_5080-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cGtJVLv/0/X3/DSC_5080-X3.jpg)

Of course I forgot to weigh all of this before the scrap metal guys came and picked it all up, but it was around 15-20+ pounds of sheet metal in addition to the back seats, interior panels, and trunk brackets that were also removed (with weights noted on our red 330). Now the car was ready for a roll cage!

WHAT'S NEXT?

The intro post in this build thread has already run long, so we better cut it short. Nothing really earth shattering done in this first series of posts, just showing the steps needed to remove weight and add longevity to this E46 chassis. Again, my goal weight guesstimate is 2600 pounds soaking wet with a dry-sumped LS stroker, T56 Magnum, giant wheels and tires, wide body work, full aero, and the required door glass + heater + wipers required for street use.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fsHpvT5/0/S/DSC_5140-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fsHpvT5/0/X3/DSC_5140-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-m3VbFCS/0/S/B61G0950-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-m3VbFCS/0/X3/B61G0950-X3.jpg)

In my next installment in this build thread I will show the roll cage fabrication work. I will also cover seat installation, custom "low profile" door panel construction, subframe reinforcement, the 8.8" Ford IRS diff swap, and more. We will discuss the classes we are building toward in NASA and Optima, and the rules/performance differences between them.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sjsWxmG/0/L/B61G1139-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sjsWxmG/0/X3/B61G1139-X3.jpg)

I tend to show details and pictures of this build and more "in real time" on our Facebook page and in our irregular "this week at Vorshlag" videos on our Youtube channel. Look for those and like/subscribe/whatever it is you are supposed to do there if you want to see the progress on this build sooner.

Until next time,

Fair!
05-18-2017, 06:23 PM
Project Update - May 18th, 2017: This round we will cover a number of fabrication tasks, including the roll cage and seat mounting. We also did a good bit of work to both the front and rear BMW M3 subframes, modifying and reinforcing them. The rear subframe was also modified to accept a different differential housing (for 8.8" IRS) and the reasons for doing that are explained in detail.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5M7WNnZ/0/b3cc07df/L/B61G1075-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5M7WNnZ/0/b3cc07df/X3/B61G1075-X3.jpg)

A pair of custom "low profile" inner door panels were built to allow for operational door window glass, which is one of the stock features retained to compete with this car in the Optima Ultimate Street Car series. We talk about concessions needed for Optima as well as the NASA class we are building for at the end. Let's get started.

RACING SEAT CHOICE, MOCK-UP, & MOUNTING

Before we started building the roll cage we needed to pick the seat(s) for this car. This is a critical decision in any race car build, as it needs to fit the driver(s), be comfortable and supportive, and provide the proper level of safety for the class/power/driver. Then it needs to be mounted correctly, safely, and with the right tilt/height/fore-aft placement.

https://photos.smugmug.com/Product-Pictures/Sparco-Seats/i-DNwxwds/0/ce37b4ff/S/DSC_7022-S.jpg (https://photos.smugmug.com/Product-Pictures/Sparco-Seats/i-DNwxwds/0/ce37b4ff/X3/DSC_7022-X3.jpg) https://photos.smugmug.com/Product-Pictures/Sparco-Seats/i-VMdJfbj/1/8da97a81/S/B61G9212-S.jpg (https://photos.smugmug.com/Product-Pictures/Sparco-Seats/i-VMdJfbj/1/8da97a81/X3/B61G9212-X3.jpg)

Like with all seat installs we do, we started in our lobby with the customer - test sitting in about a dozen different seat models. We had a number of race cars in the shop with most of these seats also, so he got to sit in them on stands and in cars. We're looking for head placement relative to the halo, shoulder height relative to the harness slots, and width sizing in the shoulder and hips. In the end the car's owner and I both fit the best in the Sparco Circuit II seat (above right). Wait... why does it matter if I fit? Well, I might drive this CSL clone in a few events at his behest. The sacrifices I have to make... :p

https://photos.smugmug.com/Product-Pictures/Sparco-Seats/i-NzGgPrN/0/2c0ecdd4/S/Sparco_Circuit2_Dimensions-S.jpg (https://photos.smugmug.com/Product-Pictures/Sparco-Seats/i-NzGgPrN/0/2c0ecdd4/XL/Sparco_Circuit2_Dimensions-XL.jpg) https://photos.smugmug.com/Product-Pictures/Sparco-Seats/i-Pg349S4/0/77db1f05/S/B61G9231-S.jpg (https://photos.smugmug.com/Product-Pictures/Sparco-Seats/i-Pg349S4/0/77db1f05/X2/B61G9231-X2.jpg)

Some marketing speak from Sparco: The Circuit LF is an lightweight competition seat specifically designed for road course (ie: circuit) use. Made from aramadic fiber-reinforced fiberglass, the Circuit has an ultra-light shell (LF is for lightweight fiberglass). The integrated head bolsters offer added neck protection and the driver’s legs are also supported well with high side bolsters. The shell is wrapped in an impact-absorbing and fire retardant fabric that helps hold the body in place, with everything meeting FIA approval.

The Circuit "II" version is a more appropriate width for "adult humans" - almost nobody over 100 pounds can fit in the "regular" sized Sparco or Cobra seats (which is why we rarely have them in stock). And the weights published for all seats are always low - I don't think they include the weight of fabric and cushions. Of course we weigh everything, and this halo style racing seat is 24.10 pounds.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7tNQLqK/0/6584a21b/S/DSC_5058-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7tNQLqK/0/6584a21b/X3/DSC_5058-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-6xZX52J/0/cfe11b62/S/DSC_5336-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-6xZX52J/0/cfe11b62/X3/DSC_5336-X3.jpg)

Initially we had hoped to use an E46 seat bracket design that was identical to one we fabricated for another E46 race car we are building, shown above right. This beefy bracket is made from tubular and angled steel, is very rigid, and has integral anti-sub-mounts. This "chassis bracket" is made for use with a slider on the driver's side, and is more substantial than the seat brackets used in my TTD classed E46 330 (http://www.vorshlag.com/forums/showthread.php?t=8400), but sit a hair higher. I like this design and might go back and have the 330 brackets replaced with some like this.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nK2Xwzr/0/ee4893f3/S/DSC_4370-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nK2Xwzr/0/ee4893f3/X3/DSC_4370-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5LsSvCz/0/c0859189/S/DSC_5213-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5LsSvCz/0/c0859189/X3/DSC_5213-X3.jpg)

At this point the factory lateral seat braces were still tack welded in the floor, and the driver's Sparco racing seat was mounted. We grabbed a similarly sized passenger seat (MOMO) and fixed bracket from another E46 race car and began the roll cage construction around them. The car owner came by for a test fitting, and it was apparent that the seats were going to be too high relative to the roll cage for safe use without a helmet (ie: for the Optima "road rally" event), so we had to go back and re-examine the seat mounting.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-L6RXzq6/0/e37118b3/S/IMG_5473-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-L6RXzq6/0/e37118b3/X3/IMG_5473-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VTLV4fC/0/dac0c7d0/S/IMG_5474-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VTLV4fC/0/dac0c7d0/X3/IMG_5474-X3.jpg)

We had little choice but to cut out these factory floor seat risers. This was a tedious task - cutting dozens of spot welds - but it gained the room we needed to make a cage that was safe enough for limited street use without a helmet. Lowering the seat like this normally isn't needed for racing use on an E46, but was deemed necessary for the HUGE compromise of running with "a cage on the street" - which is never an ideal situation.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gMX9HGV/0/414bdc34/S/DSC_5383-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gMX9HGV/0/414bdc34/X3/DSC_5383-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-xwt84fX/0/1b8f91fe/S/DSC_5662-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-xwt84fX/0/1b8f91fe/X3/DSC_5662-X3.jpg)

Once those risers were removed there was even room gained by removing one layer of sheet metal from the transmission tunnel - which had two layers with an air gap between then. This extra layer was angled and took up 2" inboard. Removing it centered the seat to the steering column better at the new lower height.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-q3gzgCK/0/b76b3e0b/S/IMG_5421-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-q3gzgCK/0/b76b3e0b/X3/IMG_5421-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-vsLgCww/0/ef392708/S/IMG_5424-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-vsLgCww/0/ef392708/X3/IMG_5424-X3.jpg)

Ryan built a new driver's side bracket that fit the new contours of the remaining E46 floor pan, which were still anything but flat. The two sizes of tubing used were to make the inboard side fit better next to the tunnel.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-s5cPp2n/0/a60a33cc/S/DSC_5864-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-s5cPp2n/0/a60a33cc/X3/DSC_5864-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Gwc8hz9/0/a105f147/S/IMG_5427-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Gwc8hz9/0/a105f147/X3/IMG_5427-X3.jpg)

The "feet" are flat steel and there are uprights that are used to clear a big hump in the floor, but the overall structure is still more than 2" lower than before. There will be additional structure added under the car to reinforce the seat mounting points, which will tie into the cage.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sFS74z4/0/df2305e1/L/DSC_6041-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sFS74z4/0/df2305e1/X3/DSC_6041-X3.jpg)

Now that picture above shows Ryan in the driver's seat and he's around 6'4" tall - yet his head has massive clearance to the roof and upper cage bars. We kind of went to extreme lengths on this install to gain a massive amount of headroom, and shorter driver's might get a thicker seat pad, but for street use without a helmet its finally deemed safe. Of course we will add SFI padding to all bars around both occupants.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-QLsLXx2/0/2a0d9d6d/S/DSC_6126-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-QLsLXx2/0/2a0d9d6d/X3/DSC_6126-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-kqKS8m2/0/ac327146/S/DSC_6127-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-kqKS8m2/0/ac327146/X3/DSC_6127-X3.jpg)

This is the final seat mounting with both Circuit II seats. The driver's side is on a slider but the passenger side is fixed. Both seats are 2+ inches lower than the initial fitment - you can scroll up and see the first mounts that kept the 3" tall seat braces and see how much higher the seats are relative to the roof and upper cage bars.

ROLL CAGE FABRICATION

We talked at length about cages vs roll bars in our last update (http://www.vorshlag.com/forums/showthread.php?p=58515#post58515) to our "daily driven track car" project build thread, which is the E46 330 we built and I race in NASA TTD Time Trial class. That car's purpose was to show how far we could go on track in a "street car", and for that build a roll cage wasn't appropriate. It has 245mm Hoosiers and less than 220 whp.

https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-xf4hjxd/0/bf63a466/S/B61G3273-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-xf4hjxd/0/bf63a466/X3/B61G3273-X3.jpg) https://photos.smugmug.com/Racing-Events/SCCA-Club-Trials-at-MSR-17-CW-May-7-2017/i-pKbdWjF/1/0bbfaaa1/S/DSC_7232-S.jpg (https://photos.smugmug.com/Racing-Events/SCCA-Club-Trials-at-MSR-17-CW-May-7-2017/i-pKbdWjF/1/0bbfaaa1/X3/DSC_7232-X3.jpg)

The Optima series does you no favors when it comes to safety allowances, but this V8 powered M3 will have more than TRIPLE the horsepower of our TTD classed 330. It also has giant 345mm Hoosiers for NASA use, big downforce, and a lot more potential for speed and carnage. So on this M3 a cage is not only a good idea, we consider it a requirement.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cGtJVLv/0/b1fdc130/S/DSC_5080-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cGtJVLv/0/b1fdc130/X3/DSC_5080-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SfqtzhQ/0/de9d40b6/S/B61G0966-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SfqtzhQ/0/de9d40b6/X3/B61G0966-X3.jpg)

Obviously some of the cage progress was shown in the seat mounting section above, but that's because the cage and seat mounting go hand-in-hand - another "concurrent" set of tasks that I am splitting apart for clarity. We also showed "considerable interior structure removal" from the back seat bulkhead in the very first project thread update.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-QmB6hDL/0/5fbb3c6a/S/DSC_5121-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-QmB6hDL/0/5fbb3c6a/X3/DSC_5121-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fsHpvT5/0/ae06490c/S/DSC_5140-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fsHpvT5/0/ae06490c/X3/DSC_5140-X3.jpg)

Jon, Jason and I all had input with Ryan so that we were all on the same page with respect to class rules and series requirements for the cage material and layout. We chose 1.75" dia x .095" DOM 1018 seamless steel tubing for this cage. The design emphasis was on getting the tubes as far away from the driver as possible - while still keeping roll up door windows for Optima. This would not be a "wheel to wheel" cage (which has more robust door bars and sometimes additional tubes) but a Time Trial car with very limited street use - I go more into the series and classes this car will run at the bottom of this post. We built the cage with those aspects in mind.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ZLcph46/0/8c5ead5c/S/DSC_5160-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ZLcph46/0/8c5ead5c/X3/DSC_5160-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hhcnVL4/0/5c32678b/S/B61G0959-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hhcnVL4/0/5c32678b/X3/B61G0959-X3.jpg)

After the main hoop was bent up and set in the car the rear downbars were landed in virtually the same spots as the 4-point welded roll bar we added to our shop 330 last month. This M3 cage happened first and I liked the layout so much I asked Ryan to duplicate the back half for my 330 (minus one of the diagonals in the main hoop; the M3 got two).

Many BMW roll cages you see on the interwebs have these rear down bars landing on the shock towers (not doing coilover rear springs, so that's not useful to us here), or into some elaborate jungle gym of triple-triangulated tubes tying into rear subframe mounts (we've already beefed up the subframe mounts) and everything else. With respect to those cage builders, we just don't feel that any of that is necessary on a time trial car. It's just throwing steel at a perceived problem with minimal return. This is a phenomenon we call: Steelitus.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fz8RGt9/0/54c94e80/L/NASCAR-roll-cage-design-brawl-L.jpg

I already know how these "roll cage design" discussions go, and I'm not here to argue with the internet cage experts. I just know what works well for what we have built in various cars and different racing classes. No, we don't have a chassis jig to measure torsional stiffness / frequency (almost nobody on the planet has these types of tools), and we didn't do FEA on the structure, but this cage will be appropriate for the final weight (2600) and type of racing (Time Trial) this car will do.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pwQhLqH/0/849037d9/S/DSC_5170-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pwQhLqH/0/849037d9/X3/DSC_5170-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-D7kLmkj/0/d78ec0de/S/DSC_5181-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-D7kLmkj/0/d78ec0de/X3/DSC_5181-X3.jpg)

The main hoop was placed behind the driver and aligned closely to the factory B-pillar, placing the tubes just ahead of the back seat floorpan kick-up for the fuel tank. The lower landing points were reinforced with steel plate as well as sitting on top of plinth blocks, to raise the cage up off the floor. In the pictures below you can see the plinth structures (below left) and how the cage was dropped at the front to weld the top joints (below right). Dropping the cage off the plinths allows the cage to be lowered by that distance, to get full 360° welds around each tube. This seems common place, but I cannot count how many cages we've seen done without full welds around all tubes. This is one of those "cost saving" features that often happens on lower cost roll cages. I talk more in depth about "why roll cages cost money" in this forum post (http://www.vorshlag.com/forums/showthread.php?t=8384).

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-frvbW7t/0/efe9c058/S/DSC_5333-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-frvbW7t/0/efe9c058/X3/DSC_5333-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LPTwp36/0/4c09a8f2/S/DSC_5337-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LPTwp36/0/4c09a8f2/X3/DSC_5337-X3.jpg)

continued below

Fair!
05-18-2017, 06:39 PM
continued from above

Removing the roof panel made the main hoop upper joints a little easier to weld, and we could have done this cage build with the roof installed. Since it was getting a carbon roof to emulate the CSL model and reduce weight, it made it that much easier.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-CfqXtwH/0/90755c75/L/B61G1011-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-CfqXtwH/0/90755c75/X3/B61G1011-X3.jpg)

The image below left shows the main hoop being welded to the upper cage bars. Even with the factory roof removed we still needed the plinth blocks on the main hoop landing points to gain enough access for final welding on the top of the cage. The upper door / roof structure panels were still in the way. You can see on the below right picture (with the cage raised up on the plinth blocks in place) the curvature of the upper cage sections and how far up into the roof area they go. More head room, better forward visibility, tighter fitting to the outer panels.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-kkBKtTZ/0/c3443521/S/DSC_5335-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-kkBKtTZ/0/c3443521/X3/DSC_5335-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7LKPsMT/0/4261b931/S/B61G1029-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7LKPsMT/0/4261b931/X3/B61G1029-X3.jpg)

Once the main cage structure was fully welded together the front was raised up on the plinth blocks and they were welded into the chassis (below left). The main hoop was welded to the load spreading plates, which themselves had been welded to the floorpan (below right)

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9dhzhPB/0/f2cfa445/S/B61G1118-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9dhzhPB/0/f2cfa445/X3/B61G1118-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LmCLFGw/0/6a512d09/S/B61G1097-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LmCLFGw/0/6a512d09/X3/B61G1097-X3.jpg)

The door bars were a simple "X" style design due to the need for functional door windows. Not ideal, but one of the compromises we had to make for Optima series. We also added a "FIA compliance" bar at the front of the door opening to give more column strength to the side of the cage in the event of a rollover. This is commonly done on road racing cars with high rake windshields and in rally cars. The image below left has the plinth blocks removed, below right has them in place and welded.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-52D3Wgn/0/e94f3d47/S/DSC_5334-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-52D3Wgn/0/e94f3d47/X3/DSC_5334-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-jzPk34B/0/87db8d5c/S/DSC_5435-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-jzPk34B/0/87db8d5c/X3/DSC_5435-X3.jpg)

With the main sections welded together and to the chassis we looked at additional points to tie the cage into the unibody. The low mounted horizontal bar between the main hoop's lower bars rests right against the rear seat vertical floor section, which was joined to the tub with several stitch welds along this tube. The A-pillar cage bars were also tied to the chassis with some load plates that featured dimple die formed stiffening holes. We may do the same thing at the B-pillars later in the build.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-CZbzJMX/0/bd4b7180/S/DSC_5457-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-CZbzJMX/0/bd4b7180/X3/DSC_5457-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-vddKZVH/0/14a9c237/S/B61G1132-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-vddKZVH/0/14a9c237/X3/B61G1132-X3.jpg)

Last but not least, the horizontal harness bar was added after the seat placement was finalized. Ryan added a "taco plate" reinforcement to the X bar joint inside the main hoop.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dLKh3h4/0/6b289381/L/P5050504-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dLKh3h4/0/6b289381/X3/P5050504-X3.jpg)

There's still a few gussets and bits we might add, and some short sections of tube to tie the harness bar into the main "X", but the main part the roll cage is complete. Remember: this isn't the only way to make a roll cage for an E46. This is built as a Time Trial / Optima Street Car competitor, so there are multiple compromises made to meet some conflicting needs.

LOW PROFILE DOOR PANELS

https://photos.smugmug.com/Projects/1992-Corvette-TTC-Build/i-c2JZCV5/0/16375847/L/B61G0890-L.jpg (https://photos.smugmug.com/Projects/1992-Corvette-TTC-Build/i-c2JZCV5/0/16375847/X3/B61G0890-X3.jpg)
To race in Optima series you can't do door bars like this and keep all the points. Compromises for rules are all part of the game.

After we realized we needed to keep the door glass, we realized that we would have to rework the factory door panels - which were just too thick to allow adequate room to the driver's elbow with door bars. We prefer for a race car to have fixed Lexan or no door windows at all, then we can gut the structure inside the doors and push the cage door bars out to the outer skin. This always gives more room to the driver - which is helpful to absorb energy in a side impact (more common in wheel to wheel racing). Optima dings you heavily for not having working door glass, so the X-bar layout on the doors was a concession to that series.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3f2Cc9q/0/3eec3ad1/S/DSC_4862-b-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3f2Cc9q/0/3eec3ad1/X3/DSC_4862-b-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ktzf6gJ/0/fbd6e311/S/DSC_5218-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ktzf6gJ/0/fbd6e311/X3/DSC_5218-X3.jpg)

We discussed options with the owner and the marked up image (above right) of modified OEM door panels was deemed the right way to go. This allowed us to keep the upper curved plastic section of the factory door panel, which has the inside door handle, a speaker hole, and the upper wiper seals and felts for the door glass. Ryan carefully removed the lower section of the panel, which was plastic riveted to the upper section.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2ScKZFq/0/8d41c9e0/S/DSC_5621-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2ScKZFq/0/8d41c9e0/X3/DSC_5621-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-74PWTmB/0/4bdeb4fc/S/DSC_5628-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-74PWTmB/0/4bdeb4fc/X3/DSC_5628-X3.jpg)

In the images above you can see the detail on the plastic rivets which fastened the two plastic panels together. Once those were cut out he made a cardboard template for the lower section, test fit that to the cage, then transferred the templates to aluminum sheet. These will make for "almost flat" panels, which will gain several inches of width for the cage door bars (removing the "pull" handle and outer arm rest).

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zqZ7f9M/0/b6a1a5c0/S/DSC_5461-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zqZ7f9M/0/b6a1a5c0/X3/DSC_5461-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sjsWxmG/0/dd2dc6ec/S/B61G1139-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sjsWxmG/0/dd2dc6ec/X3/B61G1139-X3.jpg)

With the two aluminum panels cut they were then split along a curved front edge, which would need to be fitted to a curved section of the upper plastic section of the OEM door panel. This gap was filled with more aluminum sheet, then he secured it to the door panel with Clecos and tack welded the pieces together (see below left).

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-j3b6Gjq/0/b3131709/S/DSC_5634-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-j3b6Gjq/0/b3131709/X3/DSC_5634-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cWbjMqh/0/2870135c/S/DSC_5618-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cWbjMqh/0/2870135c/X3/DSC_5618-X3.jpg)

The split sections were fully TIG welded off the car, then the seams were sanded, filled with metal as needed, and shaped for a nice appearance (see above right). The Optima series has car show portions that we cannot ignore, so this work was for those all important "Design & Engineering Points".

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-b5SGXjN/0/6f933d14/S/B61G1141-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-b5SGXjN/0/6f933d14/X3/B61G1141-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-QLpR4qB/0/57feb7d1/S/B61G1142-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-QLpR4qB/0/57feb7d1/X3/B61G1142-X3.jpg)

The end result adds some necessary protection between the driver's arm and the sharp inner workings of the window glass. It looks good so it should help in the Optima D&E judging, too. We might go back and upholster these aluminum panels, or coat/anodize them in some way. For now we had the clearance needed to get the door bars as far away from the driver's arm while keeping the door windows operational.

FRONT SUBFRAME REINFORCEMENT + SPINDLES REFRESHED

Due to the high torque loads from the 7.7L engine we are building for this car we decided it was worthwhile to reinforce the front subframe while the car was being built. When we are building a car to this level there are very few areas that are "just left stock". The factory front subframe was dropped out of the car and bead blasted down to bare steel.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nJ44rLZ/0/98b65740/S/DSC_5382-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nJ44rLZ/0/98b65740/X3/DSC_5382-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PQjmfsQ/0/e90dee83/S/DSC_5679-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PQjmfsQ/0/e90dee83/X3/DSC_5679-X3.jpg)

Once we received the subframe back we inspected it closely for cracks, bent flanges, and any other potential damage. This came out of a Texas car so there were no traces of rust or corrosion, and luckily the motor mount sections weren't cracked. This meant we had a good core to start with.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3WpV8wg/0/2d00a763/S/DSC_5406-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3WpV8wg/0/2d00a763/X3/DSC_5406-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2DDwGfN/0/512f7547/S/DSC_5407-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2DDwGfN/0/512f7547/X3/DSC_5407-X3.jpg)

The factory M3 subframe is a welded steel assembly from a number of stampings, but the factory misses a few spots when they put them together, so those were fully welded by our crew.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-KxThKZT/0/4bff5808/L/DSC_5408-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-KxThKZT/0/4bff5808/M/DSC_5408-M.jpg)

They also TIG welded in some reinforcement plates to the underside of the motor mount plate, then a second plate was welded in from underneath to "box" in the bottom of this section. We use one of these mounting holes for our LS swap mounts, so we wanted that as strong as possible. Even the subframe mounting holes were seam welded at both ends, to fill in "skipped" sections from the factory.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-jvWs2pG/0/deaf336e/S/DSC_5835-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-jvWs2pG/0/deaf336e/X3/DSC_5835-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-kwsp3xX/0/db29e606/S/DSC_5839-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-kwsp3xX/0/db29e606/X3/DSC_5839-X3.jpg)

We were re-using an OEM power steering rack, converted to manual (electric assist) steering, so we also added some tack welds to the back of the steering rack mounts. Once the welding was completed on this and the rear subframe (read more below) it was sent out for powder coating.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-qbDLg3W/0/07f897df/L/P1130102-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-qbDLg3W/0/07f897df/X3/P1130102-X3.jpg)

There a gloss black powder coating was applied to give this raw steel some corrosion protection. Its a bit flashier than the factory coating, but when you have it down to the raw steel like this, powder coating is the way to go.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dX9tDt6/0/4bde5c56/S/DSC_5841-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dX9tDt6/0/4bde5c56/X3/DSC_5841-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-J3GfgJG/0/884a6a7f/S/DSC_5862-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-J3GfgJG/0/884a6a7f/X3/DSC_5862-X3.jpg)

The front M3 spindles were also dismantled, glass bead blasted, then "double nickel plated" (a process we tried on a few suspension parts in the past, and it looks great and lasts). The spindles were treated to brand new front hubs, then some of our 90mm wheel studs. We sent the OEM front lower control arms to our friends at SPL Parts for them to model for a billet adjustable lower control arm set with spherical bearings. We should see those soon, but for now the car has the old arms back on to be able to roll around the shop.

8.8" IRS DIFF HOUSING UPGRADE & REAR SUBFRAME REINFORCEMENT

https://photos.smugmug.com/Projects/BMW-E36-LS1-Alpha-car/i-jmS7t7p/0/14af8d7a/S/DSC_7184-S.jpg (https://photos.smugmug.com/Projects/BMW-E36-LS1-Alpha-car/i-jmS7t7p/0/14af8d7a/X3/DSC_7184-X3.jpg) https://photos.smugmug.com/Projects/BMW-E36-LS1-Beta-Project/i-Hsr7Dnb/2/93212390/S/scooter-msr-S.jpg (https://photos.smugmug.com/Projects/BMW-E36-LS1-Beta-Project/i-Hsr7Dnb/2/93212390/X3/scooter-msr-X3.jpg)
Left: Our E36 LS1 swap "Alpha" build saw tons of abuse on the 188mm BMW diff. Right: Our Beta customer broke the medium case

The argument for using a BMW diff in our swaps goes back to 2002 when we first starting our E36 LS1 "Alpha" project. And in 2011 when we kicked off the E46 LS1 development (http://www.vorshlag.com/forums/showthread.php?t=7939) we had the discussion again, but this time with many years of first hand experience with a "medium case" E36 M3 limited slip behind a 500 whp engine and 315mm Hoosiers. We couldn't manage to break the 188mm Medium case but we did have one customer (540 whp) that did - but in his own words, he breaks everything. ;)

https://photos.smugmug.com/Customer-Cars/99-Miata-LS1/i-kCXHVJF/0/88908d7f/S/DSC_1013-S.jpg (https://photos.smugmug.com/Customer-Cars/99-Miata-LS1/i-kCXHVJF/0/88908d7f/X3/DSC_1013-X3.jpg) https://photos.smugmug.com/Customer-Cars/99-Miata-LS1/i-MZbd8R7/0/2fee68d8/S/B61G0155-S.jpg (https://photos.smugmug.com/Customer-Cars/99-Miata-LS1/i-MZbd8R7/0/2fee68d8/X3/B61G0155-X3.jpg)
This LS powered Miata used an aluminum Ford 8.8" IRS differential mounted in a custom rear subframe

In various V8 builds since then we've used a variety of solutions: the Medium case BMW diff, a Ford 8.8" diff (Miata V8, Beta E36 LS1), and even the 210mm "large case" BMW E46 M3 differential in customer E46 M3 LS swaps. This "large case" BMW unit is also used in heavier cars like the M5, 7 series, and more, and in the E46 M3 it always came with a limited slip differential.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hbbB9zC/0/4d7bf7d9/S/DSC_7361-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hbbB9zC/0/4d7bf7d9/X3/DSC_7361-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8wr8Vxp/0/bfa64c33/S/DSC_7362-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8wr8Vxp/0/bfa64c33/X3/DSC_7362-X3.jpg)

The non-M E46 chassis got the medium case unit, and 100% of those were OPEN differentials, which while still fairly strong are not ideal for putting down power (I fight with the open diff with only 220 hp in my TTD 330). For this project the "easy button" solution would be to leave the E46 M3's larger 210mm ring gear unit in place and just upgrade the axles. And we proposed that to the owner of this car early on - but cautioned that the torque that this somewhat larger stroker LS motor can put out (700 ft-lbs) might be past the limit for this car. There are lots of BMWs running around making "dyno numbers" higher than we're shooting for on the 210mm housing, but I suspect many if not most are not making the torque we will. This will be a brutal track car that will even see some standing start launches (Optima Speed Stop events) on rather wide tires. "Over building" the diff was the smart choice...

continued below

Fair!
05-18-2017, 07:05 PM
continued from above

https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-XWxVGWx/0/16a02ddf/S/DSC_3150-S.jpg (https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-XWxVGWx/0/16a02ddf/X3/DSC_3150-X3.jpg) https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-2pdCQvT/0/eff3d361/S/DSC_3152-S.jpg (https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-2pdCQvT/0/eff3d361/X3/DSC_3152-X3.jpg)

Here are more weights from the the 1999-03 Mustang Cobra 8.8" aluminum rear housing (62.9 lbs, at left) and the "medium case" BMW E36 housing (76.9 lbs, at right). The weight for the "large case" E46 M3 unit is above, at 100.4 pounds. All of these weights are complete housings with the factory rear covers, factory gears, and factory differential units. The BMW housings are heavier because they are cast steel - which is stronger than aluminum - but what usually breaks is the actual ring gear.

https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-PpJfFW3/0/ea94e381/S/DSC_3153-S.jpg (https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-PpJfFW3/0/ea94e381/X3/DSC_3153-X3.jpg) http://vorshlag.smugmug.com/Projects/E46-Alpha-Car/i-DdmVKrx/0/S/DSC4125-S.jpg

And while the external dimensions on the medium case BMW unit and the Ford 8.8" unit look similar, the 8.8" ring gear translates to 223.5mm. And this is one of those cases where "bigger is better". Not to mention there are countless ring and pinion gear sets available at a fraction of the cost of the limited number of BMW gear ratio options for either the 188mm or 210mm housings. And limited slip units are more abundant (and less costly) for the 8.8" vs the BMW units.

So like the engine and drivetrain in this build, we're looking at a domestic part for a lower cost and stronger differential, with more plentiful gear/diff options and a lighter weight by nearly 37 pounds.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-88qhh9x/0/46beaba2/S/DSC_5048-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-88qhh9x/0/46beaba2/X3/DSC_5048-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DF9rw7R/0/98d7efa4/S/DSC_5049-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DF9rw7R/0/98d7efa4/X3/DSC_5049-X3.jpg)

We happened to have an 8.8" aluminum diff housing from a 2015-up Mustang S550 chassis, and its a thing of beauty. We mocked it up next to the 210mm M3 diff (above left) and it looked like it might work. Then we pulled the subframe out of the car, pulled it apart, and bead blasted it to raw steel. That's when we noticed - this S550 housing isn't going to ever fit. The front mounting "feet" on the S550 housing are inside the pick-up points of the rear suspension and the middle of the case hits at the back. This would require a completely scratch built subframe and new control arm lengths - and we don't need those kinds of hassles.

http://vorshlag.smugmug.com/Projects/E46-Alpha-Car/i-TLSwznz/0/S/ford-irs-housing-S.jpg https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WV2JxRS/0/941d7a7f/S/DSC_6058-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WV2JxRS/0/941d7a7f/X3/DSC_6058-X3.jpg)

Enter the 1999-04 Ford Mustang Cobra aluminum 8.8" housing. I picked one up used because we couldn't find new stock of the OEM housing or even the old Ford Racing part number kit - popular with Cobra kit car builds for years. The M3 rear subframe was clamped to the fab table and Ryan started cutting...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mWBS6BC/0/7df382e7/S/DSC_6065-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mWBS6BC/0/7df382e7/X3/DSC_6065-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-xV66BjZ/0/5d43f47e/S/B61G1584-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-xV66BjZ/0/5d43f47e/X3/B61G1584-X3.jpg)

The front of the 99-03 Cobra 8.8" housing is much narrower than the 2015-up S550 housing, so after some minor clearancing and reinforcement, the front was able to slide between the suspension pick-up points. The front sections needed a good bit of fabrication and even custom machined front mounting bushings, but it all went together smoothly. The centerline of the drive flanges was matched to that of the BMW unit and it was squared up before any of the mounts were designed.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-CRqFKNW/0/6cc03eb7/S/DSC_6068-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-CRqFKNW/0/6cc03eb7/X3/DSC_6068-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pp8KqxM/0/ae7bb860/S/P1050016-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pp8KqxM/0/ae7bb860/X3/P1050016-X3.jpg)

The rear mounting was a bit trickeir. The 99-04 Cobra "clamp" mount was similar to the E46 non-M rear cover, but was never a popular choice and this cover/mount had failures in the Cobra Mustangs (below left). The later Explorer 8.8" rear cover (below right) mimicked the E46 M3 "ears" but they were in the wrong plane fore-aft and the wrong width. It was going to take massive modifications to make that work, so we punted on these.

https://photos.smugmug.com/Customer-Cars/99-Miata-LS1/i-SpWs25F/1/099f28ce/S/_DSC7619-S.jpg https://photos.smugmug.com/Customer-Cars/99-Miata-LS1/i-J9KBKxR/1/99fb9c3e/S/ExplorerDiffCover-S.jpg

Instead Jason recommended an aftermarket steel Ford 8.8" solid rear axle cover that has the same bolt pattern and shape as the 99-04 8.8" IRS housing. This was a fabricated unit for off road use, so it was beefier than the thin stamped steel OEM covers used on solid axle 8.8s.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4xGhDzX/0/dc0b69cb/S/DSC_6181-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4xGhDzX/0/dc0b69cb/X3/DSC_6181-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4vn9Pfw/0/6adbdfa2/S/DSC_6182-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4vn9Pfw/0/6adbdfa2/X3/DSC_6182-X3.jpg)

It started out about 7 pounds heavier than the cast aluminum Cobra diff cover, which you can see above. But we needed thicker material to resist the torque of this LS motor, so the 1/4" thick steel unit was the right way to go. Buying a pre-made CNC laser cut and welded cover saved us a dozen hours of hand making this piece.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pFDCCfJ/0/18b5a26e/S/P1040999-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pFDCCfJ/0/18b5a26e/X3/P1040999-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-P6vVdxb/0/75ba5884/S/P1040005-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-P6vVdxb/0/75ba5884/X3/P1040005-X3.jpg)

This bare steel cover was easy to modify to have "ears" attached that bolted to the E46 M3 rear subframe. Unlike the front, the rear mounting modifications were all done to the cover - nothing on the back of subframe was modified. Care was taken to maintain access for the rear cover mounting bolts as well as the existing fill plug.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mQp9Fwb/0/2492b6cf/S/P1050008-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mQp9Fwb/0/2492b6cf/X3/P1050008-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7DfFTq4/0/ae5af8df/S/P1050013-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7DfFTq4/0/ae5af8df/X3/P1050013-X3.jpg)

The structure was set and plated, tack welded, then fully TIG welded to make a strong set of mounting ears on this 1/4" thick plate steel rear cover. Strong as an ox, yet compact. This cover came with a fill plug (threaded bung welded in, with a screw in plug) and we later added a drain plug as well.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pp8KqxM/0/ae7bb860/S/P1050016-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pp8KqxM/0/ae7bb860/X3/P1050016-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dLZT7MF/0/c549d2b7/S/P1130099-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dLZT7MF/0/c549d2b7/X3/P1130099-X3.jpg)

The modified M3 rear subframe was also stitch welded to cover any gaps in the factory welds, just like the front. Then the rear subframe, the lower front mounting cross bar, and the reinforced front subframe were all powder coated gloss black.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RdCfgW9/0/0c697bf2/S/DSC_6252-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RdCfgW9/0/0c697bf2/X3/DSC_6252-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-858gBxF/0/3b2f8761/S/DSC_6254-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-858gBxF/0/3b2f8761/X3/DSC_6254-X3.jpg)

So while the 210mm M3 diff housing might have worked, it was always going to be heavier, weaker, and have fewer & costlier options for gearing and LSDs. We would be having custom halfshafts built for either the 210mm BMW unit or the Ford 8.8", so that's a wash.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wNvvkDj/0/12b094b9/S/P1130101-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wNvvkDj/0/12b094b9/X3/P1130101-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GTq96bT/0/762eaef7/S/DSC_6296-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GTq96bT/0/762eaef7/X3/DSC_6296-X3.jpg)

Aluminum subframe mounting bushings were installed into the shiny black M3 rear subframe. Instead of taking our chances with polyurethane or even Delrin, we're going "full stuff" on the rear diff and subframe mounts on this car.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NLFQsCd/0/84d1e3bb/S/DSC_6416-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NLFQsCd/0/84d1e3bb/X3/DSC_6416-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zJGhLBz/0/88dd4b3f/S/DSC_6419-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zJGhLBz/0/88dd4b3f/X3/DSC_6419-X3.jpg)

We added a second threaded bung and plug to the diff cover before it was powder coated gloss black. This will allow us to run a dedicated diff fluid cooler, which will help keep the 8.8" unit happy under high torque abuse. The completed rear subframe - minus the diff housing - was installed in the car at this point to allow the rear suspension parts to be added.

COMPETING IN NASA AND OPTIMA CLASSES

The customer who owns this build is an avid HPDE driver who is used to high powered RWD cars, and now has the Miata track trainer that we built to hone his skills before he jumps into this V8 M3. Before the build began we asked him, like we ask all customers, "What class do you want to build for". This is crucial, as even simple parts choices made early on can limit where you can run any car. We don't ever want to build a car "just for track use" and always encourage folks to at least have some class in mind for "down the road". It tends to make any race car more valuable if it is legal for some class or series.

https://photos.smugmug.com/Projects/BMW-E36-LS1-Alpha-car/i-7Xr8RR6/1/5ebc8b12/S/DSC_6770-S.jpg (https://photos.smugmug.com/Projects/BMW-E36-LS1-Alpha-car/i-7Xr8RR6/1/5ebc8b12/X3/DSC_6770-X3.jpg) https://photos.smugmug.com/Projects/Vorshlag-2011-Mustang-GT-build/i-cKMHt6m/1/f47679d2/S/DSC_7484-S.jpg (https://photos.smugmug.com/Projects/Vorshlag-2011-Mustang-GT-build/i-cKMHt6m/1/f47679d2/X3/DSC_7484-X3.jpg)

Wheel to wheel racing was never in the cards for this car, so we looked at places where it can compete in Time Trial - which still has a competitive thrill, similar contingencies, but only a fraction of the crash danger of W2W racing. For a car approaching 4 pounds per hp, there is one class you build for in NASA Time Trial: TTU (aka: Unlimited class).

I'm not going to delve into the intricacies of NASA classing rules (https://www.nasaproracing.com/rules) for TT, but there are basically a number of classes based strictly on power to weight ratio (TT1/2/3/4), then a few remaining TT Letter classes that are both points based and p-to-w limited (TTC/D/E/F). Basically TTU is fastest, followed by TT1 to TT4, then TTC to TTF are further down the line. TTU will be a tough class to compete in because things like ALMS prototypes and open wheeled race cars are allowed there... but typically TTU acts as a catch-all class for cars that exceed the limits of TT1 or don't have their classing sheets or dyno sheets in order. It is still a rather large class in Texas, most of the time won by Paul Costas' GT1 tube-framed Camaro.

https://photos.smugmug.com/Racing-Events/NASA-TWS-042217/i-FjPVgnC/2/1893d5e4/S/IMG_5492-S.jpg (https://photos.smugmug.com/Racing-Events/NASA-TWS-042217/i-FjPVgnC/2/1893d5e4/X3/IMG_5492-X3.jpg) https://photos.smugmug.com/Racing-Events/NASA-TWS-042217/i-rPbXRLL/1/8fce17e4/S/DSC_7093-S.jpg (https://photos.smugmug.com/Racing-Events/NASA-TWS-042217/i-rPbXRLL/1/8fce17e4/X3/DSC_7093-X3.jpg)
Left: I'm using the #JankyStick to point out duct tape. Right: Costas setting the weekend's fastest lap at TWS

With numbers around 2700 pounds with driver, "over 500 hp", giant 14" wide slicks with functional aero its going to be pretty hard to beat this car with a unibody BMW coupe chassis with roll up windows, but TTU is just where this car fits. See, I've already got the excuses ready if we lose! :D Paul is a good friend of mine and I'm sure he won't mind the "class filler" we will be for him. With 5 in class, a win in TTU pays 2 tires per day if you are running Hoosiers, and with 7 in class pays 1 for 2nd - so even a runner up finish might take home some tires.

https://photos.smugmug.com/Projects/Vorshlag-2011-Mustang-GT-build/i-NX3qNH4/1/fe837acf/S/DSC_1126-S.jpg (https://photos.smugmug.com/Projects/Vorshlag-2011-Mustang-GT-build/i-NX3qNH4/1/fe837acf/X3/DSC_1126-X3.jpg) https://photos.smugmug.com/Projects/Vorshlag-2011-Mustang-GT-build/i-trZS8zM/1/83315940/S/DSC_7480-S.jpg (https://photos.smugmug.com/Projects/Vorshlag-2011-Mustang-GT-build/i-trZS8zM/1/83315940/X3/DSC_7480-X3.jpg)

For NASA TTU (and HPDE) the car will be run on 335/30/18 front and 345/35/18 rear Hoosier A7 tires, which we had exceptionally good results with in our TT3 car - this car was never beaten in class on these tires, and was easier to drive on than anything else we ever tested. These 345's are the widest DOT tires Hoosier makes, and should work well for this high powered car on the rear. We could possibly use a wider Hoosier 355mm racing slick, but I've found the DOT "A" Hoosier to be a bit friendlier, warm up quicker, and fall off later (more heat cycles) than dedicated racing slicks. I'd wager a very small amount of money that in the right conditions they are faster than similarly sized slicks. I might lose that bet, but in the first 1-2 laps of a TT session (the only traffic free opportunities) I've rarely seen any tire faster than A7s.

https://photos.smugmug.com/Racing-Events/Optima-Ultimate-Street-Car/i-NnQDpwd/1/1ed94277/L/_DSF2888-L.jpg (https://photos.smugmug.com/Racing-Events/Optima-Ultimate-Street-Car/i-NnQDpwd/1/1ed94277/X3/_DSF2888-X3.jpg)

The more serious classing objective for this E46 CSL M3 is Optima's Search For the Ultimate Street Car series, run by the USCA organization (http://driveusca.com/usca-rules/). This is currently the biggest arena to showcase fast cars that have some smidgen of street car capabilities, with a massive variety of cars and a LOT of talented drivers and car builders. I have a lot of friends who compete in this series and missing the last 2 years of events is KILLING me.

We've had a modest amount of success in that series, where Amy and I have entered in Mustangs and Corvettes, and this BMW's owner ran a car at one event also - and enjoyed it a lot. I've always felt like they needed more BMW entrants in Optima, and I have been in contact with the series director to share our plans. Hopefully this hybrid BMW fits within their series parameters and gets as much TV time as our big heavy Mustang did.

Discussing the Optima series rules would take hours, but the basics are this: The USCA runs 8-10 qualifier events each year. There are 4 or 5 classes at these events, and the class winners from each qualifier get invited to Vegas for the "finale event" after SEMA, the Invitational. Here all of the classes get merged into one big shootout with 75-100 cars. Each qualifier and the Invitational are based on 5 competitions: autocross, speed stop, time trial, a road rally to test the streetability of all cars, and a judged car show section called "Design and Engineering". Winning a class at a qualifier is a big deal, as all of these events are televised. Winning the overall at the Invitational is a HUGE deal.

https://photos.smugmug.com/Racing-Events/OUSCI-2014-110814/i-FpC5Ldd/0/59caf2cd/S/ousci-group-pic-S.jpg (https://photos.smugmug.com/Racing-Events/OUSCI-2014-110814/i-FpC5Ldd/0/59caf2cd/X3/ousci-group-pic-X3.jpg) https://photos.smugmug.com/Racing-Events/OUSCI-2014-110814/i-fhb7KwR/0/f439f252/S/B61G0167-S.jpg (https://photos.smugmug.com/Racing-Events/OUSCI-2014-110814/i-fhb7KwR/0/f439f252/X3/B61G0167-X3.jpg)

For this series the car has to run a 200 or higher treadwear tire, so we'll build around a 335mm front and 355mm rear street tire - which are the widest available/competitive tires. They won't be as sticky as the Hoosiers but we have some ideas to help manage that. We are building for the GTL class, but that's all I have to share about Optima classing with regards to this E46 M3 CSL clone at the moment. More soon!

WHAT'S NEXT?

In the next installment to this build thread we will show the electric assist steering we added along with the brake upgrades and suspension we have installed. Its all serious stuff that I am pretty happy with.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Cm689ZJ/0/820ef41b/S/DSC_5887-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Cm689ZJ/0/820ef41b/X3/DSC_5887-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-532htLR/0/dc0335c7/S/B61G1515-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-532htLR/0/dc0335c7/X3/B61G1515-X3.jpg)

The max width tire and wheel testing will also be shown, which we used to order the first set of wheels. Then we will cover the unique rear seat mounted fuel cell and dry sump oil tank mounting we tackled for this build.

Thanks for reading,

Fair!
06-20-2017, 09:25 AM
Project Update for June 20th, 2017: Another round of updates to the E46 M3 V8 monster project. In this installment we will show some unusual suspension/upright coatings, the brake parts we chose plus custom brake cooling, and most of the aftermarket suspension components being installed.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hCnWkgJ/0/53684d28/S/DSC_5891-S.jpg https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Ndvk5r2/0/09b52757/S/B61G4335-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Ndvk5r2/0/09b52757/X3/B61G4335-X3.jpg)
It took some time to get from tire mock-ups (at left) to making the final flares (at right)

The max width tire and wheel testing will also be shown, which we used to order the first set of wheels, which we are flaring around now (will be shown in more detail later). We also cover the electric assist steering upgrade, pedal box installation, and wrap it up.

NICKEL PLATED SUSPENSION PARTS

I mentioned this in my last update about the front spindles, but will expand on it here. This seems a bit over the top, but we didn't pitch the customer the idea of making show-car-like coatings on the remaining BMW suspension components (spindle, trailing arms, etc). We were actually building another E46 in 2015. The customer for this car saw what we did to make those parts look better than new and said "Do mine like that!", so we duplicated the effort on Chainsaw Massacre.

https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-d9cf34Q/1/cf55b714/S/DSC_8495-S.jpg (https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-d9cf34Q/1/cf55b714/X3/DSC_8495-X3.jpg) https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-5ZWCHSx/1/5115c31c/S/DSC_8533-S.jpg (https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-5ZWCHSx/1/5115c31c/X3/DSC_8533-X3.jpg)

We started with this extra M3 rear subframe I purchased brake-to-brake for a good price. Normally we get parts from Texas and there's never a hint of rust or corrosion - we're very spoiled here - but the pallet came from the mid-Atlantic area and it had just the hint of some signs of salt corrosion. I abhor rust in even the smallest traces, so it was time to blow the entire rear subframe apart, bead blast all of the steel and aluminum parts, and re-coat everything with a more durable and corrosion resistant plating.

https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-Fs4g3Xm/1/c8bd89d3/S/DSC_8541-S.jpg (https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-Fs4g3Xm/1/c8bd89d3/X3/DSC_8541-X3.jpg) https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-HKDJkRj/1/1190f072/S/DSC_8561-S.jpg (https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-HKDJkRj/1/1190f072/X3/DSC_8561-X3.jpg)

Our guys got all of the parts stripped down, then pressed out all bushings. Next the taped up any surfaces we didn't want to blast - machined bearing surfaces (the acid wash process before nickel plating would clean any remaining paint off without giving these surfaces a "blasted" finish). Upper rear control arms, lower trailing arms, RTAB cassette buckets, rear hubs, rear caliper brackets, rear uprights, front spindles, even the rear diff cover were all glass bead blasted.

https://photos.smugmug.com/Instructions/Strut/i-FhJ7bpf/1/c6b57df1/S/DSC_6529-S.jpg (https://photos.smugmug.com/Instructions/Strut/i-FhJ7bpf/1/c6b57df1/X3/DSC_6529-X3.jpg) https://photos.smugmug.com/Product-Pictures/MCS-TT1-Shocks/i-SbFXG9H/0/bdaf6ed5/S/_DSF1637%20copy-S.jpg (https://photos.smugmug.com/Product-Pictures/MCS-TT1-Shocks/i-SbFXG9H/0/bdaf6ed5/X3/_DSF1637%20copy-X3.jpg)

After seeing what salted roads can do to metal coatings and platings, about a decade ago I switched the plating we specified on steel camber plate parts from zinc chromate ("yellow zinc", shown above left) to electroless nickel ("e-nickel), shown at right. It costs about 4x as much but lasts a helluva lot better on steel than anything else, and the added thickness is nominal so it doesn't mess up bearing tolerances. This is why I wanted to re-plate the steel suspension arms and spindles with nickel.

A local blaster did the honors and got the parts perfectly down to bare metal. I picked up the pallet from there and took them right to our plater (except the front and rear subframes, which we had powder coated after reinforcement).

https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-CQfvC2G/1/ece7ed69/S/DSC_8804-S.jpg (https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-CQfvC2G/1/ece7ed69/X3/DSC_8804-X3.jpg) https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-kb8c5Dx/1/36a700b1/S/DSC_8806-S.jpg (https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-kb8c5Dx/1/36a700b1/X3/DSC_8806-X3.jpg)

Then another vendor we use double nickel plated the parts. This was the first time we tried this. This started with the electroless nickel process we already use, which flows into every nook and cranny. The Rear trailing arms are hollow and the E-nickel can get up inside there. Then on top of that we had them electroplate another layer of nickel - called "Bright nickel". Electroplating only grabs onto the outer surfaces of the metal part but it gives a shinier finish. This double plating worked out better than I had hoped. It was several hundred dollars of work but on a build like this the results were worth it.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GTq96bT/0/762eaef7/S/DSC_6296-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GTq96bT/0/762eaef7/X3/DSC_6296-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GdGF9bG/0/0ae4f047/S/B61G2069-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GdGF9bG/0/0ae4f047/X3/B61G2069-X3.jpg)

So that is why we had to blast/plate these parts, and once you see these in person it looks so shiny and sparkly its hard to say no. But for Optima there is a "car show" component that cannot be ignored, and additional tasks like this only help.

BRAKE SYSTEM - ROTORS, CALIPERS, & COOLING

The nickel plated E46 M3 spindles from above are now being fitted with new wheel bearings and brakes in this step.

https://photos.smugmug.com/Product-Pictures/Powerbrake/i-C9gWG6D/0/8ee3e4ba/S/B61G9150-S.jpg (https://photos.smugmug.com/Product-Pictures/Powerbrake/i-C9gWG6D/0/8ee3e4ba/X3/B61G9150-X3.jpg) https://photos.smugmug.com/Product-Pictures/Powerbrake/i-2mHPxjt/1/d3df5770/S/Powerbrake_X-Line_X6EL_big%20brake%20kit_5%20%28HR%29-S.jpg (https://photos.smugmug.com/Product-Pictures/Powerbrake/i-2mHPxjt/1/d3df5770/X3/Powerbrake_X-Line_X6EL_big%20brake%20kit_5%20%28HR%29-X3.jpg)

If you follow our build threads you will notice that in the last 2 years we have begun working with a new Motorsports brake company out of South Africa called Powerbrake. They machine their calipers, brackets and rotors in-house and the quality and construction rival the highest cost iron based brake kits in the world. I always say "you get what you pay for" but due to a strong US Dollar relative to SA's currency, we can get these kits for a good bit less than other brands.

https://photos.smugmug.com/Vorshlag-Test-Pilots/Feras-Qartoumy-08-C6-Corvette/i-GS57FsT/0/d0be8305/S/B61G3185-S.jpg (https://photos.smugmug.com/Vorshlag-Test-Pilots/Feras-Qartoumy-08-C6-Corvette/i-GS57FsT/0/d0be8305/X3/B61G3185-X3.jpg) https://photos.smugmug.com/Projects/Jamie-Becks-S197-Mustang/i-Gt2X3BJ/0/c488593f/S/DSC_4950-S.jpg (https://photos.smugmug.com/Projects/Jamie-Becks-S197-Mustang/i-Gt2X3BJ/0/c488593f/X3/DSC_4950-X3.jpg)

I have been using their 4 piston BBK on our E46 330 since early 2016 and right off I was amazed at the difference in feel, confidence, heat resistance, and stopping power these had over good pads/fluid/lines. We've since worked with them on getting measurements and testers for a number of new fitments: FRS, C6 Corvette (above left), S197 Mustang (above right), and SN95 Mustang (AJ Hartmans's AI Mustang).

https://photos.smugmug.com/Racing-Events/NASA-COTA-052717/i-HvMmTqL/1/c896edab/S/P7A_3873-S.jpg (https://photos.smugmug.com/Racing-Events/NASA-COTA-052717/i-HvMmTqL/1/c896edab/X3/P7A_3873-X3.jpg) https://photos.smugmug.com/Racing-Events/NASA-COTA-052717/i-CF3PwBZ/1/cb574f1e/S/P7A_8431-S.jpg (https://photos.smugmug.com/Racing-Events/NASA-COTA-052717/i-CF3PwBZ/1/cb574f1e/X3/P7A_8431-X3.jpg)

I've driven all but one of these on track already and all I can say is I don't know how I didn't move to Motorsport style calipers and rotors sooner! "Being cheap" catches up with me again, I guess? And that's what's funny. We put the Powerbrake kit on my E46 in the middle of 2016 and I'm still on the same rotors and pads, and the pads are still at 3/4 depth. And I drive like such a tool I tend to murder brakes. So in the end the total running costs per lap will be lower, even with the higher initial BBK cost.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LDGDsgx/0/b33b94ed/S/DSC_5863-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LDGDsgx/0/b33b94ed/X3/DSC_5863-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PmdbDmJ/0/d8b82108/S/DSC_5861-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PmdbDmJ/0/d8b82108/X3/DSC_5861-X3.jpg)

They make a lot of different brake kits for the E46. On my 330 we used a large 4-piston caliper on a 330 mm rotor (to fit under 17" wheels). With Powerbrake's help we picked the 350mm front 6-piston brake and 350mm 4 piston rear caliper for this M3 project. This all easily fits under 18" wheels and should be more than adequate for this ~2600 pound car.

https://photos.smugmug.com/Product-Pictures/Vorshlag-Brake-Cooling/i-XkfXfJb/0/3fc575c6/S/B61G1845-S.jpg (https://photos.smugmug.com/Product-Pictures/Vorshlag-Brake-Cooling/i-XkfXfJb/0/3fc575c6/X3/B61G1845-X3.jpg) https://photos.smugmug.com/Product-Pictures/Vorshlag-Brake-Cooling/i-fMv493r/0/27e58be8/S/B61G6514-X3-S.jpg (https://photos.smugmug.com/Product-Pictures/Vorshlag-Brake-Cooling/i-fMv493r/0/27e58be8/X3/B61G6514-X3-X3.jpg)

All serious cars used for track use need some sort of brake cooling, especially for the fronts. This is where you take high pressure air through an inlet, route it through tube/hose to the back of the hub, then force it into the rotor and pump it through the rotor itself. This helps keep the brake rotor cool, but also cools the hub, caliper, pads, and of course the fluid. We have made ducted brake backing plates for a number of cars and sometimes inlet duct kits as well. Super important for track use - extends the life of the pads, rotors and fluid, and could potentially save you from a crash.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4MFJNV9/0/a6794058/S/DSC_5834-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4MFJNV9/0/a6794058/X3/DSC_5834-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-J3GfgJG/0/884a6a7f/S/DSC_5862-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-J3GfgJG/0/884a6a7f/X3/DSC_5862-X3.jpg)

First we needed to refresh the front hub bearings and install some wheel studs (I hate lug bolts). The shiny plated spindles worked great and the microscopic thickness added on the bearing surfaces didn't amount to any clearance problems with the new bearings.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-BgtJx9K/0/ba7f4407/S/DSC_5874-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-BgtJx9K/0/ba7f4407/X3/DSC_5874-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WknpkpT/0/90d18b14/S/DSC_5904-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WknpkpT/0/90d18b14/X3/DSC_5904-X3.jpg)

On this M3 we're going to custom make backing plates to fit this Powerbrake 350mm setup that bolt to the E46 spindles both front and rear. Looking to get a 4" ducted hose for the fronts first so we will build around an 4" oval duct on the backing plate. The E46 uses a brake dust backing plate that is a funky shape and completely encircles the spindle - so to use a proper backing plate the OEM dust cover is not used.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-JnpS8Js/0/ff3fba34/S/DSC_5895-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-JnpS8Js/0/ff3fba34/X3/DSC_5895-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wP67qxc/0/7c029fed/S/DSC_6122-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wP67qxc/0/7c029fed/X3/DSC_6122-X3.jpg)

With the 335mm tire mocked up, the calipers and rotor mounted, and the bare backing plate bolted on the spindle (above left) it was easy to see where the ducted hose flange needed to be added. This 4" oval tubing was made on the bead roller, welded up, marked, cut, and welded to the backing plate (above right).

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gRSM4nn/0/47bf7ad3/L/DSC_6112-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gRSM4nn/0/47bf7ad3/X3/DSC_6112-X3.jpg)

We will show the work on the front inlet ducting and the hoses in a later post - we have a good place for that on the 1M style front bumper cover that the customer chose.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3dqJvDP/0/f26cd61b/S/DSC_6353-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3dqJvDP/0/f26cd61b/X3/DSC_6353-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fkTdSBN/0/338543d1/S/DSC_6350-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fkTdSBN/0/338543d1/X3/DSC_6350-X3.jpg)

Out back the nickel plated trailing arm got new bearings, plated hubs, and AKG spherical bearing kit in place of the RTAB bushing. I always say that the RTAB bushing needs to pivot freely in 2 axis and won't do polyurethane here - only the OEM rubber bushing + limiter OR a spherical bearing like this. Anything else is just asking for suspension bind. The spherical bushing kit needed a hair of clearancing to press into the trailing arm, and the entire setup was held in place by both a press fit + a little bearing retaining compound (above right).

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2nsCzcj/0/9f042434/S/P1260127-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2nsCzcj/0/9f042434/X3/P1260127-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VgKTQrq/0/9ce6e796/S/P1260135-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VgKTQrq/0/9ce6e796/X3/P1260135-X3.jpg)

The rear ducted backing plate was a little trickier. With the rear hub installed (its a bear to remove) we noted that a 2piece backing plate made more sense. So a backing plate was made that fit close to the Powerbrake 4 piston caliper and rotor. With the rear suspension assembled a 3" oval ducting inlet was added to clear the control arm. Its usually pretty difficult to route hoses to rear brakes, but again - with a car like this its worth the effort.

SUSPENSION PARTS INSTALLED

Since we ended with the brakes out back we'll start with the suspension there also. The rear control arms are all mounted in spherical bearings - a mix of OEM sealed rubber versions (where the factory included those) and aftermarket spherical bearings elsewhere. We also sourced all brand new rear suspension bolts from BMW - cheap insurance.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5HQxVS2/0/18da8c56/S/DSC_6414-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5HQxVS2/0/18da8c56/X3/DSC_6414-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2L8n4ZW/0/3f3d06d4/S/DSC_6418-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2L8n4ZW/0/3f3d06d4/X3/DSC_6418-X3.jpg)

The reinforced and powder coated rear subframe (detailed in my last update) was installed with AKG aluminum chassis mount bushings and bolted to the reinforced mounting holes using the new BMW bolts. Then the rear suspension was bolted in with the plated aluminum upper arms and SPL Parts adjustable length, spherical bushed, lateral lower arms. The plated and spherical bushed trailing arms were also bolted in place.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-34rhzMm/0/dd598d9d/S/DSC_6426-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-34rhzMm/0/dd598d9d/X3/DSC_6426-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4tHxhdq/0/563b89fc/S/DSC_6420-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4tHxhdq/0/563b89fc/X3/DSC_6420-X3.jpg)

That wraps up the rear suspension - well other than the shocks/springs. We went with MCS Remote Reservoir 2 way adjustable dampers on this car (RR2) along with a firm set of springs - rates which might change later due to aero and lateral loads (track testing will sort this out). Vorshlag spherical rear shock mounts were installed as well.

https://photos.smugmug.com/Product-Pictures/MCS-RR2-Shocks/i-SFDZHf5/0/9edd4659/L/B61G1345-L.jpg (https://photos.smugmug.com/Product-Pictures/MCS-RR2-Shocks/i-SFDZHf5/0/9edd4659/X3/B61G1345-X3.jpg)
MCS RR2 dampers installed on this E46 M3

Up front we used the M3 version of our E46 camber/caster plates along with the RR2 front struts. We were working pretty quickly around this time and the suspension went on, ride heights were quickly set, and then wheels went on before I could get good pictures of the suspension installed. I'll make a point to get shoot these with the wheels off soon.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gM77fcF/0/0532c66c/S/DSC_6013-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gM77fcF/0/0532c66c/X3/DSC_6013-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-N8FsvwR/0/cce58efa/S/DSC_6014-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-N8FsvwR/0/cce58efa/X3/DSC_6014-X3.jpg)

We haven't mounted the reservoirs yet but they have hoses long enough to keep them mounted underhood for easy access to the compression knobs. The rebound knobs are on the top of the strut, which makes them easy to access. The camber-caster plates bolt into the reinforced E46 strut towers - which may receive further reinforcement with bracing to either the chassis and/or the cage.

continued below

Fair!
06-20-2017, 09:26 AM
continued from above

For most track E46 builds we'd put in a new pair of Lemforder lower control arms, Powerflex 2-piece LCA bushings, and fresh tie rods. This isn't the typical track car - its spherical or nothing.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Mm5vkXt/0/e7970e63/S/DSC_5675-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Mm5vkXt/0/e7970e63/X3/DSC_5675-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bv6TZrw/0/d1204802/S/DSC_5984-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bv6TZrw/0/d1204802/X3/DSC_5984-X3.jpg)

So for now the front control arms are still stock to let the car roll around, but we have plans for something good. We sent the OEM lower control arms/chassis mounts to SPL parts down in Austin and they are working on a new set of adjustable spherical control arms for the E46 M3 chassis, based on the test parts we sent them.


https://photos.smugmug.com/Product-Pictures/SPL-Performance-Automotive/i-VsrnP74/0/95b2cd65/S/FRS_FLCA1_web__98636.1472852423.1280.1280-S.jpg (https://photos.smugmug.com/Product-Pictures/SPL-Performance-Automotive/i-VsrnP74/0/95b2cd65/X3/FRS_FLCA1_web__98636.1472852423.1280.1280-X3.jpg) https://photos.smugmug.com/Product-Pictures/SPL-Performance-Automotive/i-RC5Th9J/0/3c80acb6/S/FRS_SubFrame__16597.1409766058.1280.1280-S.jpg (https://photos.smugmug.com/Product-Pictures/SPL-Performance-Automotive/i-RC5Th9J/0/3c80acb6/X3/FRS_SubFrame__16597.1409766058.1280.1280-X3.jpg)
Examples of SPL Parts front control arm (at left) and rear control arms (at right) made for another chassis

Of course other people "already make spherical/adjustable arms" for this chassis, we know. But we know the SPL guys from NASA racing and they build everything here in Texas, top quality stuff, super strong and of course - spherical and adjustable. We trust that they can add something to their version that will make them worth building. They supplied the rear lateral arms and this FLCA setup is a logical next product for them for the E46 chassis.

TIRE MOCK-UP FOR WHEEL MEASUREMENTS

You may have seen the 18x13" wheels we have on the car now (below) in teaser pics on social media, but getting to the proper offsets and sizes was some work. We are trying to tuck the wheels as far inboard as possible to minimize the amount of flare needed - which is still going to be huge. To do this we started out with the correct sized front tire, mounted it to a wheel mock-up tool, and tested it on the front suspension...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wxTNFb4/0/4e946ab6/S/DSC_5885-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wxTNFb4/0/4e946ab6/X3/DSC_5885-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Cm689ZJ/0/820ef41b/S/DSC_5887-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Cm689ZJ/0/820ef41b/X3/DSC_5887-X3.jpg)

To even get to this point for tire fitment testing we needed the car's suspension in place, camber set within about a degree or so, and with the brakes and hubs installed. That took a lot of parts spec'ing, ordering, and installation. This tire test was done early in the project because we knew the custom wheels would take a while to be built. We didn't think it would be 4.5 months, but it was...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PgSXmth/0/3cb9ea91/S/DSC_5888-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PgSXmth/0/3cb9ea91/X3/DSC_5888-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rHG4hQs/0/fd386c36/S/DSC_5886-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rHG4hQs/0/fd386c36/X3/DSC_5886-X3.jpg)

We tested the 335/30/18 on the front and a 345/35/18 on the rear, at ride height, full droop and full bump travel. Then the front was swung lock to lock. This visual testing with the correct sized tire gave us an idea of how much body modification would be needed as well as the offsets we should order for the 18x13" front and 18x14" rear wheels.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-b43vntz/0/d72eac82/M/M14-4-M.jpg https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sbJMjH8/0/92d83320/M/M14-3-M.jpg

This Forgestar M14 wheel is a 2-piece version of their popular F14 wheel, which comes in 18" diameters from 8" to 15" wide. We worked with the customer on color schemes early on, and made a lot of photoshopped pictures of this wheel with various colors and finishes. He settled on a satin black center and anodized red outer lips, shown below. So we ordered the wheels. And waited. And waited... We were stuck. We needed wheels and tires + the car at ride height to be able to tackle many other tasks.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Bv9Wq52/0/3ed47ebc/S/B61G3236-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Bv9Wq52/0/3ed47ebc/X3/B61G3236-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-H7nWq9H/0/ca5be161/S/B61G3244-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-H7nWq9H/0/ca5be161/X3/B61G3244-X3.jpg)

Over a third of a year later when the wheels arrived they looked beautiful, except for one thing we noticed right away. They are all 18x13" wheels. To make these 2-piece wheels inner and outer rim halves are mixed and matched - plus the backs of the centers are machined - to get the width and offset we needed. This was done to clear the brakes, fit the biggest tires we had planned (335F/345R), and give us the most inboard offset to minimize the flare needs. After the issue was noticed I had a "spirited" phone call with the manufacturer, and we could have sent them back for a full refund. But the thought of waiting another 4.5 months (or even a few weeks) for correct rear wheels would wreck our timeline. The project was at a standstill until we could put it on the ground with the right tire sizes mounted. So we talked to the customer, mounted up the 335/345 Hoosiers, and bolted them up.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-JKtNpZN/0/0bbf3136/L/DSC_7070-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-JKtNpZN/0/0bbf3136/X3/DSC_7070-X3.jpg)

I saw them on the car and wanted to be mad, but they looked good and fit really well. We realized this car might need as many as 3 different sets of wheels - for differing classes/uses - so we decided to keep this 18x13" set. The 345mm tire fits on an 18x13" wheel well enough, but the 14" width would have been better - yet I ran these tires for 2 seasons on an 18x12" wheel. They were a tick squeezed on the 12s but we won every event we entered on the big tires, so it wasn't that bad.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-MQmWgGF/0/b351f7d6/S/B61G3406-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-MQmWgGF/0/b351f7d6/X3/B61G3406-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-HT9FcwH/0/401244de/S/B61G3342-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-HT9FcwH/0/401244de/X3/B61G3342-X3.jpg)

Ryan started the clearing work to the unibody and structure up front to clear the 335s at full lock and then flare mock-ups, but I'll show more of this next time.

ELECTRIC POWER ASSIST STEERING: COLUMN + RACK MODS

If you have driven a modern car built in the past 10 years you may have known that the OEMs have almost completely dropped hydraulic power steering in favor of electric assist. They have done this for many reasons, but for Motorsports use it is good because it deletes a residual power drag (power steering pump) as well as removes the largest cause of underhood fires: leaking hydraulic fluid. With the added costs of the (racing modified) power steering pump, cooler, and lines it is almost a wash on costs. It wasn't hard to convince the customer that this was the right way to go.

https://photos.smugmug.com/Car-Shows/PRI-Show-2016/i-Lsq54nL/1/e982b6de/S/IMG_4313-S.jpg (https://photos.smugmug.com/Car-Shows/PRI-Show-2016/i-Lsq54nL/1/e982b6de/X3/IMG_4313-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DK6vnHG/0/312c2ded/S/DEC-motorsports-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DK6vnHG/0/312c2ded/M/DEC-motorsports-M.jpg)

We have been investigating aftermarket or "OEM adaptations" of an EPAS system for the past 4-5 years, and I loved the EPAS unit in my 2011 Mustang (once we swapped it for a Ford Racing version). Our Scion FRS has electric assist also.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cVTRDdh/0/0a7cb68b/S/DSC_5999-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cVTRDdh/0/0a7cb68b/X3/DSC_5999-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LLpTVNh/0/63baf4af/S/DSC_6002-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LLpTVNh/0/63baf4af/X3/DSC_6002-X3.jpg)

Jason and I talked to a lot of vendors that make these kits at the PRI show in December 2016, with an eye on working with this M3. After weighing all of the options (DCE and EPAS), home built vs aftermarket, we went with the EPAS Performance kit shown above.

http://vorshlag.smugmug.com/Projects/Vorshlag-2011-Mustang-GT-build/i-MSzVXHD/1/L/_DSC8409-L.jpg
Ford Racing EPAS unit for 2011-14 Mustangs

There are generally two ways electric assist is used (outside of the early systems which used an electrically powered hydraulic pump with traditional lines and hydraulic assist) on OEM cars these days: the electric assist is built into the steering rack (shown above) or it is built into the column. The latter is what most of the aftermarket is using and frankly its easier to integrate into a car that came with hydraulic assist.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PdsJGxB/0/dcc36433/S/DSC_6007-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PdsJGxB/0/dcc36433/X3/DSC_6007-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-q4QVxXn/0/ba4bb3fd/S/DSC_6034-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-q4QVxXn/0/ba4bb3fd/X3/DSC_6034-X3.jpg)

Of course integration with a motorsports steering column would be even easier, but for a number of reasons we wanted to keep the OEM steering column intact on this car - for a working turn signal stalk and some other bits. This BMW steering column was cut apart, modified, and the motor assembly was merged with it.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5h8Z7JK/0/41ebb35e/S/DSC_6035-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5h8Z7JK/0/41ebb35e/X3/DSC_6035-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PQjdMq5/0/24fdc586/S/DSC_6009-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PQjdMq5/0/24fdc586/X3/DSC_6009-X3.jpg)

There are a lot of steps that this "merging of columns" that I'm skipping. Frankly he did it quickly and we didn't get pictures of each step. But it was possible to get the two columns to work together - with some cutting, custom machine work, TIG welding, and careful measuring.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-XCP2hCr/0/2b1318a5/L/B61G1489-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-XCP2hCr/0/2b1318a5/X3/B61G1489-X3.jpg)

This is the final E46 M3 column with the EPAS system integrated. There are separate controllers and two heat sinks that keep the electronics cool, and a knob that will go on the dash to control the amount of assist, from heavy to light, based on your need. Autocross will likely have a heavier assist, track use less so.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cszdBdr/0/7588539e/S/B61G1498-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cszdBdr/0/7588539e/X3/B61G1498-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dXjZhv2/0/186afc66/S/B61G1530-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dXjZhv2/0/186afc66/X3/B61G1530-X3.jpg)

The column was mocked up in the car to get the height and tilt close, then a mounting bracket was built and welded to the cage dash bar to set it in place. The factory tilt is still operational but the telescoping is gone due to the massive changes to the column that were needed. The seat can move fore-aft so that's not an issue.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-BLRpHrK/0/89ba8151/S/DSC_6044-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-BLRpHrK/0/89ba8151/X3/DSC_6044-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fc6rLVK/0/64a08b96/S/DSC_6290-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fc6rLVK/0/64a08b96/X3/DSC_6290-X3.jpg)

Below the column a 2-piece steering shaft was built using our BMW-specific U-joints and some DD shafts to connect to the steering rack - we've built and sold hundreds of motorsport steering shafts for BMWs. A column mount bushing and plate to cover the large hole in the firewall will be added later. Now it was time to modify the M3's power steering rack...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PvdpgVZ/0/f9bd08ac/S/DSC_6289-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PvdpgVZ/0/f9bd08ac/X3/DSC_6289-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-CWJBL5H/0/b15d8c4e/S/DSC_6284-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-CWJBL5H/0/b15d8c4e/X3/DSC_6284-X3.jpg)

The guts were removed and the shuttle valve was modified to work without hydraulic assist. The "power assist" will be upstream inside the column. The interior cavities of the rack were filled with grease and the pressure and return hose ports were capped.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-jhjt8Wz/0/a95c12d5/S/P1180110-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-jhjt8Wz/0/a95c12d5/X3/P1180110-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5cqR8N4/0/d9761562/S/DSC_6346-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5cqR8N4/0/d9761562/X3/DSC_6346-X3.jpg)

New inner+outer tie rods were ordered and installed, as were a new set of steering rack bellows and rubber caps. The rack was tidied up and reinstalled into the subframe.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sFS74z4/0/df2305e1/S/DSC_6041-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sFS74z4/0/df2305e1/X3/DSC_6041-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bJjLr67/0/e013a48d/S/DSC_8046-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bJjLr67/0/e013a48d/X3/DSC_8046-X3.jpg)

People that have seen the picture above left have asked "Is it in the way of your feet?" The answer is no. The picture above right shows the EPAS motor buried up under the dash. It will be all but invisible - to the eye and with respect to steering feel - once the dash is back in place and the car is on the road.

OBP PEDAL BOX ASSEMBLY

This is the last section for this update - the OBP pedal box. Early in the build we had decided on the EPAS steering and Ryan felt that the motor might be difficult to package under the dash using the stock pedal box, which is hung from the firewall and the dash mounting structure.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WsPrmQk/0/8e92c168/S/DSC_4917-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WsPrmQk/0/8e92c168/X3/DSC_4917-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-KHBmzmz/0/5e5105c5/S/DSC_5867-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-KHBmzmz/0/5e5105c5/X3/DSC_5867-X3.jpg)

We also decided to gut the inner workings from behind the dash skin and go with an digital dash display and custom HVAC (Motorsport heater core/blower) to save weight. This meant the heavy, clunky OEM dash bar would go away and be replaced with a horizontal cage bar, to which we could mount the steering column and possibly the pedals.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rNFW8hc/0/e5f3ab9f/L/E46-pedal-box-L.jpg

Instead of a set of traditional "hung" pedals the packaging of the EPAS and other bits dictated a floor mount set of pedals. And instead of building this from scratch we chose this kit from OBP. It comes with a mounting plate, spots for all 3 pedals and 3 brake master cylinder mounts, and it has a balance bar.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-p53S3ph/0/156cacb8/S/DSC_6010-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-p53S3ph/0/156cacb8/X3/DSC_6010-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WMfsRX3/0/3adfc766/S/DSC_8047-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WMfsRX3/0/3adfc766/X3/DSC_8047-X3.jpg)

Due to some changes to the floor structure, seat location, and other tweaks we have made, the pedal box bracket needed to be tweaked a bit to fit the contours of the remaining section of floor.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8zZ8tBJ/0/6419d8d6/S/B61G1545-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8zZ8tBJ/0/6419d8d6/X3/B61G1545-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pTxTCxw/0/6d527f5c/S/B61G1548-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pTxTCxw/0/6d527f5c/X3/B61G1548-X3.jpg)

But with very little rework this OBP kit bolted into the chassis and gave plenty of room above for the EPAS and other dash bits.

WHAT'S NEXT?

There's still plenty of work to show before we are "caught up to real time". Custom fuel cell + fuel fill + enclosure, oil tank + enclosure, carbon hood and 1M front bumper cover install, and much more. And flares.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3xJNXdW/0/40692b2b/L/B61G8205-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3xJNXdW/0/40692b2b/X3/B61G8205-X3.jpg)

Until next time,

Fair!
08-15-2017, 09:28 AM
Project Update for August 15th, 2017: I started writing this in July and got buried with other projects and work. We have accomplished a lot on this car since the last update and I will try to show as much as possible here. I will go over the custom fuel cell + fuel filler neck and oil tank, along with the mounting structure and fire proof enclosures for all of that.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zpJkd3C/0/ee0cec4d/L/DSC_7910-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zpJkd3C/0/ee0cec4d/X3/DSC_7910-X3.jpg)

We also will cover the aftermarket front bumper cover install as well as the structures built to hold that and twin oil coolers. There were Lexan rear side windows and back window added. And we built some really big ass flares to cover the big ass tires. Lets touch on those first!

WIDE BODY FENDER FLARES

This section could be huge, but go read the flare section in my June 9th post in our E46 330 build thread (http://www.vorshlag.com/forums/showthread.php?p=58534#post58534), and we can all save some time. In that post I cover the flaring options and installation techniques, and even reference this car's flare job.

https://photos.smugmug.com/Projects/Vorshlag-2011-Mustang-GT-build/i-qGp2cTF/0/01a5c48a/S/P7B_0360-X2-S.jpg (https://photos.smugmug.com/Projects/Vorshlag-2011-Mustang-GT-build/i-qGp2cTF/0/01a5c48a/X3/P7B_0360-X2-X3.jpg) https://photos.smugmug.com/Projects/1992-Corvette-TTC-Build/i-XGwfq8z/0/cc1f6c17/S/DSC_9906-S.jpg (https://photos.smugmug.com/Projects/1992-Corvette-TTC-Build/i-XGwfq8z/0/cc1f6c17/X3/DSC_9906-X3.jpg)

As I showed last time, we are building this E46 M3 around what I call "GOD'S TIRE SET" - a 335mm wide front and 345mm rear Hoosier A7 DOT tire setup. I've run these tires successfully on our TT3 Mustang (http://www.vorshlag.com/forums/showthread.php?t=7806) (above left) and even briefly on our 92 Corvette (http://www.vorshlag.com/forums/showthread.php?t=8341) (above right), and I'm building my new C6 Z06 project (http://www.vorshlag.com/forums/showthread.php?t=8493) around the same set of tires too. I say if something works, stick with it!

https://photos.smugmug.com/Projects/Vorshlag-E36-M3-STU-prepped/i-KN5dQ8S/2/87f5e788/S/DSC_5867-S.jpg (https://photos.smugmug.com/Projects/Vorshlag-E36-M3-STU-prepped/i-KN5dQ8S/2/87f5e788/X3/DSC_5867-X3.jpg) https://photos.smugmug.com/Projects/BMW-E36-LS1-Alpha-car/i-gKqFtbc/1/d56211a9/S/DSC_6763-S.jpg (https://photos.smugmug.com/Projects/BMW-E36-LS1-Alpha-car/i-gKqFtbc/1/d56211a9/X3/DSC_6763-X3.jpg)

It took me decades of dabbling in "wide tires" before I managed to work my way up to this mega-sized set. We progressed the wide wheel/tire thing on our STU classed BMW E36 M3 in 2006 (running 18x10" wheels under stock fenders), then went to 315mm tires on the Alpha E36 LS1 (above right). Our GRM Challenge winning E30 V8 (http://www.vorshlag.com/forums/showthread.php?t=7295) got 18x11" wheels and mega-sized box flares after that.

https://photos.smugmug.com/Projects/Vorshlag-E46-330Ci-DSP-Build/i-kfTdM86/0/84636f6a/S/IMG_4362-S.jpg (https://photos.smugmug.com/Projects/Vorshlag-E46-330Ci-DSP-Build/i-kfTdM86/0/84636f6a/X3/IMG_4362-X3.jpg) https://photos.smugmug.com/Vorshlag-Test-Pilots/Jeffs-E46-M3-STU-prepped/i-fwsK9wk/1/28531278/S/DSC_5060-S.jpg (https://photos.smugmug.com/Vorshlag-Test-Pilots/Jeffs-E46-M3-STU-prepped/i-fwsK9wk/1/28531278/X3/DSC_5060-X3.jpg)
We were already stuffing 18x10" wheels and 285/30/18 tires under BMW E46 cars ten years ago

The most tire you can fit under stock E46 M3 fenders is roughly a 285mm front and 315mm rear. I've run 285mm square on many E46 M3s and have installed M3 fenders on non-M E46 models to be able run that tire size. But that's just not wide enough for a powerful road course car. I always ALWAYS want to run the widest tire that "a driver can afford", and this car has the power and the potential of very few, so it deserves THE BIGGEST.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SML8cL3/0/8bdd9a78/L/B61G3332-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SML8cL3/0/8bdd9a78/X3/B61G3332-X3.jpg)

Last time we had fitted the 18x13" wheels and 335F/345R tires, and they obviously had a lot of poke past the M3 rear and non-M front fenders we had stuck on the car (this chassis was purchased without front fenders). Instead of buying then just cutting up valuable OEM E46 M3 fenders we kept the ~$35 front fenders from my old 330 on there to cut and build upon. Before we started cutting metal it was time to break out the craft paper and scissors...

FLARE DESIGN MOCK-UPS

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-HT9FcwH/0/401244de/S/B61G3342-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-HT9FcwH/0/401244de/X3/B61G3342-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-XNnW6rK/0/2acf71f6/S/B61G3349-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-XNnW6rK/0/2acf71f6/X3/B61G3349-X3.jpg)

The front mock-up flare (above left) was designed and shaped first. We were looking for some specific aero improvements that help reduce drag (covering the front of the tire) and help create downforce (evacuating the wheel well from behind). We went over several vent shapes and decided on an extended width fender face that is open at the leading edge of the door. The rear flares would follow the same mantra but it was later revised a bit. And while aero takes precedence, the style is important for Optima D&E judging, too. Nobody wants an ugly race car.

MAKING ROOM FOR THE TIRES - REAR

Anyone can slap on a set of pre-made "flares" fairly quickly, and the Stance Crowd often does this without doing the necessary cutting and fabrication work underneath. The real work is in the chassis clearancing - making room for the tires to travel in the "bump" direction (up) as well as allowing the front tires to "swing" while steering. This is often why I recommend a fabricator do the initial work on any custom flare installation, and not a painter. Sometimes paint and body shops don't understand the dynamics of how a suspension works on a street or race car. They also tend to use a bit more body filler. To keep weight to a minimum and allow for maximum tire clearance we tackled the custom steel flares in-house on the E46 M3 here. We will do a complete track test before the flares ever see any bodywork/paint, too.

https://photos.smugmug.com/Projects/BMW-E36-LS1-Alpha-car/i-4L6ncBh/0/af4fbf23/S/DSC_3531-S.jpg (https://photos.smugmug.com/Projects/BMW-E36-LS1-Alpha-car/i-4L6ncBh/0/af4fbf23/X3/DSC_3531-X3.jpg) https://photos.smugmug.com/Projects/BMW-E36-LS1-Alpha-car/i-WRP9QBf/0/e5359c46/S/DSC_9112-S.jpg (https://photos.smugmug.com/Projects/BMW-E36-LS1-Alpha-car/i-WRP9QBf/0/e5359c46/X3/DSC_9112-X3.jpg)
Left: Making room for tire clearance before the flares go on is key. Right: As is thorough testing before paint!

Cutting and welding to make room for mega wide tires is difficult to do correctly and retain a waterproof and strong unibody once you are done. I've seen some janky cutting done under some flares and they leak water inside, smoke, fuel, fire, etc. These sections that are modified really need to have an air tight seal to be FIREPROOF when complete, and this isn't something you can afford to half-ass.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hCFT58c/0/d4cf70d8/S/B61G3401-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hCFT58c/0/d4cf70d8/X3/B61G3401-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-W3Cqk8j/0/7f10251b/S/P4250381-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-W3Cqk8j/0/7f10251b/X3/P4250381-X3.jpg)

Normally on a unibody car cutting the rear fenders and merging them back together is the hardest part - and this car wasn't any easier than normal. What we do is take the wider tire & wheel, remove the rear spring, and compress the rear suspension into the bump stops (ie: "full bump travel"). If the car's inner structure allows it we cut the outer fender sheet metal (sometimes 2 layers) all the way above up to clear the top of the tire at full bump.

This 345/35/18 Hoosier is a really tall tire (26.8" tall (https://www.tirerack.com/tires/tires.jsp?tireMake=Hoosier&tireModel=A7&sidewall=Blackwall&partnum=3435ZR8A7&tab=Specs)) but it was still possible to get full tire clearance and not cut into the rear inner fender beyond the centerline of the tire. We were prepared to do that, if necessary. This car needs about 3" of bump travel with the MCS RR2s and it now has it. Due to aero loading it will have some rather firm springs on track, so we might never see 3" of bump in actual driving.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-kLhgDVk/0/c9388b49/S/P4250387-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-kLhgDVk/0/c9388b49/X3/P4250387-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dcczM46/0/1ec7033f/S/B61G3551-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dcczM46/0/1ec7033f/X3/B61G3551-X3.jpg)

The 3 layers of now cut-apart steel for the rear fender structure were hammered into place, cleared of paint and undercoating, then carefully stitch welded together via a MIG. There's no way to get to all of the factory coating on the inside sections of the sheet metal but a MIG can power through this stuff better than a TIG. Once both rear fenders were cut and welded, the areas were primed with self etching primer (needs to have "zinc" somewhere in the name) and the car was reset at ride height. It looks ugly but THAT is what needs to be done under any unibody car BEFORE you start a proper rear flare job.

MAKING ROOM FOR THE TIRES - FRONT

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cLzWsh8/0/c8affa14/S/B61G3448-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cLzWsh8/0/c8affa14/X3/B61G3448-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gBtHMvC/0/39d319f8/S/B61G3450-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gBtHMvC/0/39d319f8/X3/B61G3450-X3.jpg)

I've flared a lot of BMWs and normally the front fender clearance is a breeze. You mark the highest part of the tire at full bump and trim the sheet metal fender. Done. Takes 30 minutes per side, tops. But I've never added 335mm front tires on a BMW...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-MQmWgGF/0/b351f7d6/S/B61G3406-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-MQmWgGF/0/b351f7d6/X3/B61G3406-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bNvB8TW/0/3182b2fc/S/B61G3415-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bNvB8TW/0/3182b2fc/X3/B61G3415-X3.jpg)

Just like we had to do on our BMW E30 V8 with 18x11" fronts, this E46 M3 needed EXTENSIVE mods to the frame horn above and the chassis behind the tire to clear the 13" wide tire swinging at full lock. Large chunks of the inner fender structure were removed.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RV6dhLw/0/dd3e8809/S/B61G3462-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RV6dhLw/0/dd3e8809/X3/B61G3462-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mWVnFjF/0/c4455bf8/S/B61G3463-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mWVnFjF/0/c4455bf8/X3/B61G3463-X3.jpg)

The part of the upper frame horn that was removed was replaced with some formed 18 ga steel sheet metal, shown above left. The same template and shape was used on both sides, just inverted for the right/left fenders.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-tb5WmDh/0/bca89268/S/B61G3460-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-tb5WmDh/0/bca89268/X3/B61G3460-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hkX4v84/0/99f9f8d5/S/B61G3444-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hkX4v84/0/99f9f8d5/X3/B61G3444-X3.jpg)

The surrounding metal was cleared of paint with the pneumatic wire wheel called the Krud Buster. Awesome tool. Then this panel was stitch welded in place to tie the structure back together.

https://photos.smugmug.com/Projects/E30-V8/i-LBPkJbs/0/0a42762a/S/DSC_0652-S.jpg (https://photos.smugmug.com/Projects/E30-V8/i-LBPkJbs/0/0a42762a/X3/DSC_0652-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GGnBxdm/0/c31dfea3/S/DSC_7127-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GGnBxdm/0/c31dfea3/X3/DSC_7127-X3.jpg)

And just like how I did the same reinforcement work on the E30 (above left), Ryan added square tubing to replace some of the missing sheet metal structure on the E46 M3 (above right). All of this was TIG welded in place (way better than my E30 welding!) and the raw steel was all coated with more zinc primer. Now we are ready to add the actual flares.

BUILDING CUSTOM STEEL FLARES - FRONT

We are building these flares out of 18 gauge steel with the hopes of being able to pull molds off the final set. And while we could have made them out of foam and fiberglass, we are not a composites shop. This is the best way to make a one-off set of wheel flares in-house. They will be strong and can also be used to pull molds off of afterwards.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-C7mnRHT/0/47922805/S/DSC_7830-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-C7mnRHT/0/47922805/X3/DSC_7830-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-qqtht3s/1/87ffa4c6/S/P5250698-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-qqtht3s/1/87ffa4c6/X3/P5250698-X3.jpg)

Ryan started by adding some "landing" zones for the front flares by adding some flat sheet in the horizontal plane at the front and back of the front wheel front wheel arch opening. We will add a front "canard" portion that attaches to the front bumper cover and this landing pad will be the seam.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-L3KJnv4/0/97f439ff/S/DSC_7828-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-L3KJnv4/0/97f439ff/X3/DSC_7828-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-c7zvxKh/0/2ded60a6/S/P5250694-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-c7zvxKh/0/2ded60a6/X3/P5250694-X3.jpg)

The wheel arch had a rolled upper edge added in the bead roller (above left). With this "skeleton" added on the outer edge of the flare the gap to the fender could be bridged.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3m6GGpH/0/cd118865/S/B61G4312-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3m6GGpH/0/cd118865/X3/B61G4312-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gX4kGdL/0/aef1a2be/S/B61G4307-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gX4kGdL/0/aef1a2be/X3/B61G4307-X3.jpg)

The upper curved section of the flare was cut from steel made from transfers from the cardboard templates. These sections were then rolled and reformed in the English Wheel (above left) and the edges that meet the wheel arch were rolled in the bead roller (above right) and formed further in the shrinker stretcher (not shown).

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RtdRSRX/0/387b8882/S/P5250700-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RtdRSRX/0/387b8882/X3/P5250700-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-qjkgDLM/0/c7e985b7/S/DSC_7834-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-qjkgDLM/0/c7e985b7/X3/DSC_7834-X3.jpg)

These horizontal flare sections were fitted to the framework of the flare and fender but went back into the English Wheel a few times to be fitted.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7Fn3G6p/0/1a9e2ea8/S/DSC_7842-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7Fn3G6p/0/1a9e2ea8/X3/DSC_7842-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-MVRZCk4/0/979e80ed/S/B61G4337-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-MVRZCk4/0/979e80ed/X3/B61G4337-X3.jpg)

Initially these horizontal sections were made from one piece of sheet - which was a very long, multi-curved panel. These were later were re-made in 3 pieces, to get a better curved fit. The rear section was templated with blue tape (see above left) and you can see the seams in the top/middle and at the rear third (see above right).

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ggxBjRC/0/7233b557/S/B61G4325-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ggxBjRC/0/7233b557/X3/B61G4325-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Ndvk5r2/0/09b52757/S/B61G4335-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Ndvk5r2/0/09b52757/X3/B61G4335-X3.jpg)

To create a gap at the door opening there was a "flat" section that was welded to the middle of the curve on the front flare. Finally a vertical panel tied that "flat" upper section section into the rear landing pad. This vertical panel has a curve that mimics the stock fender shape, just moved outward five inches. The total flare width at the curve is 8.25" - its pretty massive.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7Bh7FJj/0/39bf58f2/L/B61G8127-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7Bh7FJj/0/39bf58f2/X3/B61G8127-X3.jpg)

You can see the large vent opening at the rear of this panel which will be used to evacuate the wheel well. There are all sorts of curved and formed edges on this panel to give it strength, cleaner airflow and better looks.
The look we were going for was sort of a modified/curvier DTM flare. The entire structure shown above is attached to the fender, which can be removed as a unit.

continued below

Fair!
08-15-2017, 09:47 AM
continued from above

BUILDING CUSTOM STEEL FLARES - REAR

The rear flare fabrication follows the same process as the front, starting with the front and rear "landing pads" then the formed outer arch framework.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rvRMW5W/0/de5fc003/S/B61G8176-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rvRMW5W/0/de5fc003/X3/B61G8176-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ZthC6XK/0/28657046/S/DSC_7907-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ZthC6XK/0/28657046/X3/DSC_7907-X3.jpg)

The curved horizontal flare sections were made from multiple pieces this time to keep the curves following the bodylines better.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2R3gwXG/0/8d7a82ac/S/DSC_7908-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2R3gwXG/0/8d7a82ac/X3/DSC_7908-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zpJkd3C/0/ee0cec4d/S/DSC_7910-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zpJkd3C/0/ee0cec4d/X3/DSC_7910-X3.jpg)

Ryan finished up the rear flare and they looked great - from the side (see above right). But from the rear there was something odd about the rear vent opening. There was an attempt to widen the rear fender to follow the rear taillight shape. It just... didn't look right.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-86RpF6Q/0/6a6e0337/S/DSC_7934-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-86RpF6Q/0/6a6e0337/X3/DSC_7934-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-6D2RgWS/0/fcd22219/S/DSC_7933-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-6D2RgWS/0/fcd22219/X3/DSC_7933-X3.jpg)

Several of us stood around the rear flare one afternoon and we drew some lines in sharpie as well as blue tape. We all weighed in and together came up with a new shape.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dGFvdqZ/0/a82a6d5d/L/B61G8222_1-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dGFvdqZ/0/a82a6d5d/X3/B61G8222_1-X3.jpg)

Above shows version 2 of the rear flare. The boxy rear section was scrapped in favor of a tear drop shape to the added vertical section, which blends into the fender at the tail light. Some curved air deflectors were also mocked up in cardboard.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5ptcmTW/0/c243990b/S/DSC_7973-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5ptcmTW/0/c243990b/X3/DSC_7973-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3xJNXdW/0/40692b2b/S/B61G8205-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3xJNXdW/0/40692b2b/X3/B61G8205-X3.jpg)

Once again everything shown attaches to the rear fender. There will be additional portions that tie the rear bumper cover into this flare on the back side as well as a skirt that ties into the lower front section of the rear flare - as well as the trailing lower edge of the front flare.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4nP6SzT/0/a9d81979/S/DSC_8001-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4nP6SzT/0/a9d81979/X3/DSC_8001-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-XCg4bCt/0/ca601893/S/DSC_8045-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-XCg4bCt/0/ca601893/X3/DSC_8045-X3.jpg)

Everyone was happier with the look of this version so the other side was begun. With a final design locked down the second side was slightly easier to duplicate in a mirror image, pulling templates from the right side pieces to make the left side flares.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LmnRvgg/0/aff9e851/L/DSC_8086-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LmnRvgg/0/aff9e851/X3/DSC_8086-X3.jpg)

I'm happy with the look, Jason likes the airflow shapes, and Ryan likes the tire clearance - and the customer likes it all. Again, we obviously have some missing sections to tie into the flares sections at the front, middle and back, but the "wheel flares" are complete and ready for final welding then track testing before bodywork and paint.

CUSTOM FUEL CELL + OIL TANK + ENCLOSURES

The images below may look pretty mundane but there was a lot of thought, planning, and custom fabrication that went into these items and enclosures.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gVSDKJp/0/3d650158/S/P5010445-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gVSDKJp/0/3d650158/X3/P5010445-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dxhZCkD/0/ee18d6b5/S/P5050508-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dxhZCkD/0/ee18d6b5/X3/P5050508-X3.jpg)

Let's break it down into sub-sections, starting with the fuel cell decision.

WHY USE A FUEL CELL?

The stock fuel tank in the BMW E46 has both good and bad properties. Good: it is strong, compact, mounted very low in the chassis, just aft of the front seats. Under the rear seats, under sheet metal, completely sealed away from the cabin. It crashes well being in the rear middle of the car, too.

https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-VNwpR6g/0/86bb599a/S/DSC_2503-S.jpg (https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-VNwpR6g/0/86bb599a/X3/DSC_2503-X3.jpg) https://photos.smugmug.com/Customer-Cars/Alex-Richards-2001-BMW-e46/i-PKb8vM8/0/03223fb1/S/B61G2829-S.jpg (https://photos.smugmug.com/Customer-Cars/Alex-Richards-2001-BMW-e46/i-PKb8vM8/0/03223fb1/X3/B61G2829-X3.jpg)

On the bad side the saddle shape makes for nasty fuel slosh in lateral loading and the "tunnel" between the two sides is too tight to fit dual 3" exhaust pipes and still keep good ground clearance. It is also plastic which means in a fire it can melt, rupture, etc. That isn't super common in crashes, but it is a possibility. Also, one side of the E46 saddle tank is much smaller than the other, as you can see above left. It is cheap and easy to just re-use this tank - which is what I did on my personal E46 330 race car (http://www.vorshlag.com/forums/showthread.php?t=8400).

In use a fuel cell provides a minimal anti-slosh effect due to the foam that is inside the bladder but can be designed to always pick up fuel. A fuel cell bladder is VERY tough and made to hold up very well in a motorsports crash. The bladder is mounted inside of a can that is made of steel or aluminum, with one end (usually the top) that can be unbolted, to extract the bladder for service. The bladder has to be replaced every 5 years to maintain FIA certification, so keep that in mind. The fuel cell foam can also degrade, especially when exposed to (and soaked /stored with) ethanol.

https://photos.smugmug.com/Projects/Brianne-Corn-2005-STi/i-WrgHGtz/1/cca7d7da/S/_DSC2596-S.jpg (https://photos.smugmug.com/Projects/Brianne-Corn-2005-STi/i-WrgHGtz/1/cca7d7da/X3/_DSC2596-X3.jpg) https://photos.smugmug.com/Projects/Brianne-Corn-2005-STi/i-8KFPJk3/0/711d276f/S/10272671_10154328042465113_3076444496158254372_o-S.jpg (https://photos.smugmug.com/Projects/Brianne-Corn-2005-STi/i-8KFPJk3/0/711d276f/X3/10272671_10154328042465113_3076444496158254372_o-X3.jpg)

For many decades an FIA approved fuel cell was required for many road racing and hill climb (like the Pikes Peak Subaru STi (http://www.vorshlag.com/forums/showthread.php?t=8124) above) classes, but safety improvements in modern OEM plastic fuel tanks - and their common, optimized placement under the car behind the front seats - has allowed these to be permitted in many Wheel-2-Wheel racing classes. We are building this E46 M3 for NASA Time Trial and Optima competition, so a fuel cell was not required, but it is never a bad idea. They do tend to be safer than almost any OEM fuel tank.

We talked about a custom fuel cell early on. Trunk mounting is the easiest and probably smartest move. There are many rectangular shaped fuel cells with an aluminum enclosure and kevlar bladder, like the ATL below in the 69 Camaro track build (http://www.vorshlag.com/forums/showthread.php?t=8393). This is mounted behind the axle just forward of the rear bumper.

https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-T3MrKcM/0/4c6aac88/S/B61G8422-S.jpg (https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-T3MrKcM/0/4c6aac88/X3/B61G8422-X3.jpg) https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-WK63htR/0/6a99e2c3/S/DSC_8771-S.jpg (https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-WK63htR/0/6a99e2c3/X3/DSC_8771-X3.jpg)

I usually forego this in my own cars because I don't do wheel-to-wheel racing, but for serious builds a fuel cell is pretty standard. If packaging had permitted, we would have used an off-the-shelf fuel cell / shape and stuck it in the trunk. If possible, try to use an off-the-shelf cell. You will save mountains of packaging hassles and costs by sticking with common fuel cell shapes.

https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-S8HPTqg/0/e5df391b/S/DSC_0191-S.jpg (https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-S8HPTqg/0/e5df391b/X3/DSC_0191-X3.jpg) https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-b2fF8g2/0/82d88c57/S/B61G8137-S.jpg (https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-b2fF8g2/0/82d88c57/X3/B61G8137-X3.jpg)

This car, being built for Optima competition, needed to be more optimized. Visible "race car" things (like a trunk mounted fuel cell) can sometimes spook the D&E judges. Besides, having a big chunk of weight in the form of 16-20 gallons of fuel mounted way out back makes for some weird polar moment issues.

MAKING A CUSTOM FUEL CELL CAN

Pretty early in this project we decided to make a custom fuel cell, to gain the exhaust clearance room in the tunnel, add safety, and keep the fuel load as low and centrally/rear located as possible. Putting it in/under the back seat would also leave the trunk floor area open for a diffuser - another really useful addition to get additional downforce in an Optima car (rear wings are severely limited in that series).

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SVS8XDK/0/cd3d88fa/S/DSC_5921-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SVS8XDK/0/cd3d88fa/X3/DSC_5921-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9gXG9G3/0/b35bf452/S/DSC_5938-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9gXG9G3/0/b35bf452/X3/DSC_5938-X3.jpg)

This custom cell was modeled somewhat around the lower shape of the right/passenger side of the OEM saddle tank, just made significantly taller. It actually holds 16 gallons all on the one side, which equals the OEM dual saddle tank's volume. We figured it would be easier to do a couple of sessions in a row on track feeding a hungry 800 hp engine if we had a full 16 gallons on board. Ryan made the "can" out of aluminum plate that was TIG welded together, with a flange on the top to be able to access the bladder inside.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-6VZBq9c/0/86ef11f0/S/DSC_5944-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-6VZBq9c/0/86ef11f0/X3/DSC_5944-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GDLXgwr/0/5d5faf66/S/DSC_5947-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GDLXgwr/0/5d5faf66/X3/DSC_5947-X3.jpg)

The shape of the can is funky - not rectangular - and this will cost us later when we have a custom bladder is built, but the alternative is a compromise of one sort or another. Of course there is a hole in the rear seat floor to let the taller portion poke through - to get the fuel volume we needed. This hole will need to be sealed up from the cabin, and an enclosure around the fuel cell can will be needed as a firewall. That work is shown below in another sub-section.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PxktxXR/0/8b3f7256/S/B61G1555-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PxktxXR/0/8b3f7256/X3/B61G1555-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bmB5xC4/0/06cf82c2/S/B61G1557-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bmB5xC4/0/06cf82c2/X3/B61G1557-X3.jpg)

The fuel cell can is 15" tall and sits about 5" above the rear seat floorpan, but sits no lower under the car than the OEM saddle tank. The fuel cell can is mounted inside of a mounting structure or "cage" made of 1" square steel tubing. The upper portion can be unbolted to remove the can.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bwS2RhM/0/c3a5edc8/S/B61G1519-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bwS2RhM/0/c3a5edc8/X3/B61G1519-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-x4zVzpX/0/80cca0a0/S/B61G1521-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-x4zVzpX/0/80cca0a0/X3/B61G1521-X3.jpg)

The entire "cage" bolts into the rear seat area - and also holds the dry sump settling tank, which I will talk about below.

DRY SUMP TANK MOUNTING

Running a dry sump oiling system is a really REALLY good idea on a car like this that has massive race tires (13.8" wide), lots of downforce, and a built race engine. And any dry sump oiling system needs an oil settling tank / reservoir.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Z4rq5R2/0/07776aa6/M/ds1-M.jpg

There are two schools of thought on oil tank placement with a dry oiling system: the engine builder wants it up front RIGHT next to the engine, with minimal plumbing runs. Mounting it under the hood at the firewall is common. The chassis engineer wants this 10-14 quart oil tank at the opposite end of the chassis than the motor, to keep improve rearward weight bias. This "trunk mounting" option is somewhat less common, but it is done.

https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-hfkRhN6/0/eb12e1cc/S/B61G0333-S.jpg (https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-hfkRhN6/0/eb12e1cc/X3/B61G0333-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fGtfgWq/2/d470cee1/S/IMG_5906-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fGtfgWq/1/8d8f73f7/X3/IMG_5906-X3.jpg)

On this car we split the difference, mounting the oil tank opposite of the fuel cell, sitting behind the driver. It also pokes down through the rear seat floor, to keep the weight as low in the chassis as possible.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-CFsXkSW/0/923bc5c3/S/Tank-Comparison-S.gif https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mM334gL/0/7f67c120/S/110_9in_Dry_Sump_Tank_Cutaway-S.gif

The shape of a dry sump tank (http://aviaid.com/shopsite_sc/store/html/dry-sump-tanks.html) is also important. The taller the tank the more distance the settling oil has to travel and hopefully the more baffles it can pass through to remove entrapped air. The oil that hits spinning engine parts can get whipped up like a milk shake and turn into foam. Foam doesn't "pump" well and lubricates even worse. The longer the oil has to travel inside the settling tank, the more air gets removed and the more "liquid" it becomes. So a tall/skinny tank is more advantageous than a short/fat tank. But all sorts of sizes are available to help builders package the oil tank in their application.

https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-WVnKhSn/0/cc7332d9/S/ls7_dry_sump_system-S.jpg (https://photos.smugmug.com/Projects/2001-E46-V8-Test-Car/i-WVnKhSn/0/cc7332d9/O/ls7_dry_sump_system.jpg) https://photos.smugmug.com/Racing-Events/NASA-at-Hallett-062114/i-GFvF6W3/1/ea823277/S/DSC_2492-S.jpg (https://photos.smugmug.com/Racing-Events/NASA-at-Hallett-062114/i-GFvF6W3/1/ea823277/X3/DSC_2492-X3.jpg)

The tank that fed the 7.0L LS7 engine in the the factory equipped dry sump C6 Z06 was tall and skinny. One major change happened from 2007 through 2013 model run of this car was - to make the tank larger in volume, going from 6 quarts up to 9 quarts (bringing total oil capacity of engine + tank + cooler from 8 to 11 quarts). There are even larger capacity oil tank units for this OEM LS7 application from the aftermarket.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-p29fLQZ/0/7ed9020c/S/DSC_6415-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-p29fLQZ/0/7ed9020c/X3/DSC_6415-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VcKDzVk/0/1ca7f165/S/DSC_6413-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VcKDzVk/0/1ca7f165/X3/DSC_6413-X3.jpg)

We chose an ARE tank (p/n 7025A) which has a 25.5" height and 6" diameter. This holds 2.5 gallons of oil (10 quarts) and is the "Tall and Skinny" option. These are more of a chore to package inside of a race car. We also ordered the ARE tank mount (p/n 7000) to hold the tank, which was mounted to the 1" tubular structure mounted in the back seat.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8MBStqN/0/380f895f/S/P2010140-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8MBStqN/0/380f895f/X3/P2010140-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zS2Z5R6/0/83c2e4ee/S/DSC_7007-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zS2Z5R6/0/83c2e4ee/X3/DSC_7007-X3.jpg)

As you can see it sits pretty high in the chassis but its 25.5" tall. It sticks down under the rear seat floor (through a hole) as far down as we could comfortably put it, too.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-xNCXWH4/0/cc8fdd86/S/B61G2884-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-xNCXWH4/0/cc8fdd86/X3/B61G2884-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cPkCgbC/0/1fc4bdc0/S/B61G3016-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cPkCgbC/0/1fc4bdc0/X3/B61G3016-X3.jpg)

This hole of course has to be covered, but a fire proof aluminum enclosure will handle that.

continued below

Fair!
08-15-2017, 10:00 AM
continued from above

MOUNTING "CAGE" FOR FUEL AND OIL TANKS

A mounting structure was built with 1" square tubing to hold the fuel cell can and dry sump tank. On top of this are the "firewall" panels that seal the passenger compartment from these hot/flammable fluids as well as the underside of the car.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rBGMwZx/0/c0660a68/S/B61G2878-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rBGMwZx/0/c0660a68/X3/B61G2878-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-m27bQWz/0/cb029717/S/DSC_7144-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-m27bQWz/0/cb029717/X3/DSC_7144-X3.jpg)

The structure started out as a perimeter section of tubing and eventually lower sections were added for the fuel cell can. Then the bolt-on upper section for the can, too.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-JnFggm3/0/ef52e3a1/S/B61G2191-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-JnFggm3/0/ef52e3a1/X3/B61G2191-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-HfbWVpR/0/d0c73cbe/S/B61G2189-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-HfbWVpR/0/d0c73cbe/X3/B61G2189-X3.jpg)

After that the bracket to hold the ARE billet oil tank mount was formed from steel sheet, with some dimple die holes to add stiffness and remove weight.

ENCLOSURE TO COVER OIL TANK AND FUEL CELL

Now that the tank/cell mounting cage was bolted into the car the openings through the trunk floor needed to be sealed. There also needed to be metal coverings for the dry sump tank and fuel cell as well, to keep fluids and fire away from the cabin.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pPPvnCN/0/c9c6a31a/S/DSC_7160-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pPPvnCN/0/c9c6a31a/X3/DSC_7160-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-FQK2bVw/0/1e24dedb/S/P5010444-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-FQK2bVw/0/1e24dedb/X3/P5010444-X3.jpg)

First the enclosure for the top of the fuel cell was built from more aluminum sheet.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-d9k5z4X/0/53e1b447/S/B61G3816-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-d9k5z4X/0/53e1b447/X3/B61G3816-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NGFRgBg/0/b4a80c73/S/B61G3860-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NGFRgBg/0/b4a80c73/X3/B61G3860-X3.jpg)

These were cut using cardboard templates, then taped together and trimmed, tack welded and final TIG welded. This "can" mounts inside the 1" steel tubing structure.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gVSDKJp/0/3d650158/L/P5010445-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gVSDKJp/0/3d650158/X3/P5010445-X3.jpg)

But wait, there's more! A giant 3-piece enclosure was needed for the oil tank side. The enclosure was too tall and unwieldy to be made from 1 piece, so it's 3 pieces.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-kVVB4xW/0/0c929a51/S/P5050505-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-kVVB4xW/0/0c929a51/X3/P5050505-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zCHSGPP/0/8a634d2b/S/B61G3879-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zCHSGPP/0/8a634d2b/X3/B61G3879-X3.jpg)

We need to make an easy to access hatch to check the oil tank levels (dipstick) and there's still a flat panel that needs to go between the two upper enclosures but for the most part it is done. They aren't exactly "pretty" to look at but they are very functional and necessary. We might add a shrubbery or something to distract the D&E judges... ;)

LEXAN SIDE AND REAR WINDOWS + FUEL FILL

To lower weight we added Lexan rear quarter windows and back windows. Then we added a fuel filler neck in one of these windows, and an enclosure around the filler neck.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-d7xtHxV/0/c28c39a7/S/DSC_6410-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-d7xtHxV/0/c28c39a7/X3/DSC_6410-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-G6s8s6N/0/2f82c918/S/DSC_6411-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-G6s8s6N/0/2f82c918/X3/DSC_6411-X3.jpg)

We sourced the rear quarter and back windows from Five Star, a race car supplier. These were mocked up on the car above to check for fit, which was very good.

LEXAN SIDE REAR WINDOWS

One thing I didn't get this time were the weights on the glass rear window or side windows vs the Lexan bits. I did get the weights on the HARD Motorsport and OEM E46 rear side rear windows in this July post on the E46 330 TTD car (http://www.vorshlag.com/forums/showthread.php?p=58561#post58561), which I copied below. The Five Star bits weigh almost exactly the same but the HM bits are much easier to mount (with their optional install kit) and come with a black outline vinyl border pre-applied to the inside.

https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-Zsv667N/0/628b69c2/S/DSC_8154-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-Zsv667N/0/628b69c2/X3/DSC_8154-X3.jpg) https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-5Dw37d3/0/ea5266e4/S/DSC_8148-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-5Dw37d3/0/ea5266e4/X3/DSC_8148-X3.jpg)

The side windows were installed first. Like most race car parts these come with no instructions - you're expected to know what you are doing.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nMdnS5G/0/63ec890b/L/B61G3015-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nMdnS5G/0/63ec890b/X3/B61G3015-X3.jpg)

Ryan began by marking the outer perimeter with two lines that corresponded to part of the "black border" that would be added later as well as a centerline for drilled holes. These were marked using a compass and a Sharpie, which you can see below at left. The outer protective film was left in place as to not mark up the actual Lexan plastic.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-b3JqwFf/0/f1e0da94/S/B61G3022-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-b3JqwFf/0/f1e0da94/X3/B61G3022-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-vGRLrR2/0/1732ae89/S/B61G3014-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-vGRLrR2/0/1732ae89/X3/B61G3014-X3.jpg)

None of the factory mounting hardware was re-used. Holes were drilled equally around the perimeter of the glass that would land in the sheet metal surround of the window. Then the holes in the windows were transferred to the body and those were center punched and drilled.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-p2qMhwx/0/e120d556/S/B61G3019-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-p2qMhwx/0/e120d556/X3/B61G3019-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-BBzxkWD/0/e5fe00c7/S/B61G3021-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-BBzxkWD/0/e5fe00c7/X3/B61G3021-X3.jpg)

M5 nutserts were installed into the sheet metal surround for each window then countersunk stainless Tinnerman washer and countersunk stainless bolts secured the window in place. This makes for flush mount, corrosion free hardware. The factory black drip rail trim was then reinstalled.

LEXAN REAR WINDOW INSTALLATION

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9FkFzwg/0/77626049/S/B61G3066-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9FkFzwg/0/77626049/X3/B61G3066-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wCMqKxN/0/b51f60d6/S/B61G3097-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wCMqKxN/0/b51f60d6/X3/B61G3097-X3.jpg)

The rear window installation followed the same techniques: marked and drilled Lexan, transferred holes and drilled sheet metal, added M5 nutserts, then Tinnerman washers and countersunk M5 bolts.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WX3wsZH/0/ce80a948/S/B61G3105-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WX3wsZH/0/ce80a948/X3/B61G3105-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Qg6MGRn/0/9ebfa0e9/S/B61G3104-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Qg6MGRn/0/9ebfa0e9/X3/B61G3104-X3.jpg)

Many of you readers have seen us install and use these threaded inserts or "nutserts" on many projects. We tend to use metric splined steel nutserts in M4, M5, M6 and M8 sizes, like the one shown above left. These add a threaded hole to sheet metal that is "blind" or hard to access on the backside. There are also versions for use in plastic or fiberglass panels as well. If you can work a blind rivet gun you can work a nutsert installation tool (above right).

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2w6pLdK/0/00801bd5/S/B61G3075-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2w6pLdK/0/00801bd5/X3/B61G3075-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-htmQpNt/0/0ad31842/S/B61G3067-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-htmQpNt/0/0ad31842/X3/B61G3067-X3.jpg)

This is how they are installed... you drill the appropriate hole (there's a chart), install the nutsert you want with the correct "grip length" (there are longer nutserts for thicker panels), then use the tool to squeeze the insert and expand the back side behind the panel. Now you have a threaded insert that is secured in place. Sure, you could install welded inserts, but that's a lot more work. We tend to use those on thicker metal, if we cannot drill/tap it for some reason, or if we need a much longer threaded length or more strength than the nutsert can support.

https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-d5m7rvn/1/b9830381/S/DSC_8095-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-d5m7rvn/1/b9830381/X3/DSC_8095-X3.jpg) https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-5CMdWbj/1/ffb2b4d8/S/DSC_8108-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-5CMdWbj/1/ffb2b4d8/X3/DSC_8108-X3.jpg)

Like Ryan did on the same exact brand of rear window on my E46 330, we will go back and tape off then spray paint the border on both the side and rear window on this E46 M3 at a later date. This makes the windows look a lot less "race car" and hides the visible sheet metal underneath.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-v7BvwVW/0/9916b976/L/DSC_7008-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-v7BvwVW/0/9916b976/X3/DSC_7008-X3.jpg)

We will be blowing the car apart for paint after the first track test, so we will likely add the painted borders (and some RTV sealant) to these windows then. For now they were secured in place with bolts only.

FUEL FILLER NECK

At this step we show the plumbing from fuel filler cap on the right rear window to the fuel cell, which had an ATL sourced top fill panel. This is shown with the partial aluminum enclosure around the aluminum fuel cell can in the picture below.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hBfTCQn/0/1870d25c/L/P5100558-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hBfTCQn/0/1870d25c/X3/P5100558-X3.jpg)

Because of the unusual back seat fuel cell location the filler neck was added to the right rear window. A simple fuel filler neck and cap were sourced from ATL and added as shown below.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ffPd8jb/0/c3f993b1/S/DSC_7147-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ffPd8jb/0/c3f993b1/X3/DSC_7147-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-TFv5DZC/2/78626ab9/S/B61G3879-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-TFv5DZC/2/78626ab9/X3/B61G3879-X3.jpg)

Ryan took some aluminum tubing and welded a mandrel bend at the top to line up the filler tube to the cap in the window. A short piece of flexible tubing was added at the bottom but this is only silicone and will be changed out for a fuel safe flexible hose soon.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wFS9k23/0/a1b9944a/S/P5080512-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wFS9k23/0/a1b9944a/X3/P5080512-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hX3C2m3/0/887c3221/S/P5080510-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hX3C2m3/0/887c3221/X3/P5080510-X3.jpg)

To make this filler neck fire safe the entire fuel fill section was then wrapped within a metal enclosure.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-v658pxM/0/318dd9e0/S/P5100575-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-v658pxM/0/318dd9e0/X3/P5100575-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-n2PW63G/0/09e28f6c/S/P5100555-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-n2PW63G/0/09e28f6c/X3/P5100555-X3.jpg)

This is what it takes to put a fuel cell in the back seat - lots of fabrication work. An upper section to the fuel cell enclosure was built to tie into the fuel filler neck enclosure tube-within-a-tube. Ample room in the top enclosure was added to allow for plumbing AN lines from the fuel cell to the fuel pump and engine and back, all of which will run under the car.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pdv75sx/0/e92d6823/S/P5100568-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pdv75sx/0/e92d6823/X3/P5100568-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SsfL6fN/0/bda02ffb/S/P5100579-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SsfL6fN/0/bda02ffb/X3/P5100579-X3.jpg)

All of this can be unbolted in sections for service, but most importantly fuel can be easily added outside of the car and end up in the fuel cell - with fire safe enclosures around everything. That wraps up the fuel cell can, filler neck, and enclosure. We still need a fuel cell bladder, which we have been trying to get quoted for many weeks.

FRONT BUMPER BEAM + COVER + HEADLIGHTS + COOLERS

Since this car was missing the front end, we needed a new bumper cover and bumper beam. Early in the project the customer sent us a rendering of another BMW he liked and this 1M style front bumper cover from Duraflex matched closely with the later M4 race car he found. Duraflex is a branch of Extreme Dimensions and Carbon Creations. They make a lot of bumper covers, hoods, and fenders for late model cars in fiberglass or carbon fiber. They often have unusual style changes, like this one, which was the 1M look front end but made to fit an E46 M3.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rfwKCZd/0/91e3997e/S/1M-front-E46-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rfwKCZd/0/91e3997e/XL/1M-front-E46-XL.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bH3mMP5/0/923f5606/S/B61G2176-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bH3mMP5/0/923f5606/X3/B61G2176-X3.jpg)

We sourced this front end early in the project and mocked it onto the car, but now it was time to mount it properly and add a bumper beam. The Duraflex material is somewhat flexible and easy to work with or modify (mostly it works like fiberglass) and it is also cost effective. It might have worked with the composite M3 front bumper beam but those are still heavy and expensive, so a tubular beam was built using the same 1.75" DOM roll bar material used in the roll cage.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-FppTHNk/0/ab800651/S/P5110597-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-FppTHNk/0/ab800651/X3/P5110597-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4G8znfN/0/1e94449b/S/P5110599-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4G8znfN/0/1e94449b/X3/P5110599-X3.jpg)

Ryan built this beam using the 3 wheeled tubing roller, then built standoffs that bolt to the factory location. There are no "bumper struts", just steel tubing. From this beam he added brackets to bolt dual Setrab oil coolers up front as well.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VH8XC6R/0/9b1a129e/S/P5250692-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VH8XC6R/0/9b1a129e/X3/P5250692-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-MWfvG5X/0/9883f338/S/P5250699-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-MWfvG5X/0/9883f338/X3/P5250699-X3.jpg)

The twin coolers line up with the outer fog light openings in the 1M styled front bumper cover. The rear OEM bumper was replaced with a similar tubular 1.75" dia beam as well. I will show that in a future update.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-b6gSJZ6/0/e6790a40/S/B61G3305-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-b6gSJZ6/0/e6790a40/X3/B61G3305-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-6SzBq2L/1/3104615e/S/DSC_8762-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-6SzBq2L/1/3104615e/X3/DSC_8762-X3.jpg)

There was some additional structure added to hold the bumper cover along the lower grill opening. I ordered E46 M3 headlights and corner lights online, I cannot remember where. Ryan taped up the fronts and installed those before I could grab pictures, but they are just stock replacements.

WHAT'S NEXT?

We are much farther along than this post shows but I am out space so I better wrap it up here.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SzdDNGB/0/67f256c0/L/P8040182-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SzdDNGB/0/67f256c0/X3/P8040182-X3.jpg)

Next time I can cover the installation of the carbon fiber hood, the HPR built 7.7L LS engine, T56 Magnum transmission, twin disc McLoed clutch, SFI bellhousing, ARE 4 stage dry sump oiling system, rear wing installation, seat mounting version 3.0, aluminum interior panels/floors, LS7 accessory drives, custom 1-7/8" long tube header construction, and more.

Thanks for reading!

Fair!
10-10-2017, 01:42 PM
Project Update for October 10th, 2017: Much has happened to the M3 V8 CSL project over the past two months. Last time we covered the widebody flare design and construction, fuel cell and dry sump tank mounting and enclosures, Lexan windows, and the custom front bumper beam and 1M style cover.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NWPd6CN/0/586b112b/L/B61G9875-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NWPd6CN/0/586b112b/X3/B61G9875-X3.jpg)

This time we will show the installation of the carbon fiber hood, the delivery and installation of the HPR built 7.7L engine. To that we bolted a T56 Magnum transmission, twin disc McLeod clutch, and an SFI bellhousing. Onto the new motor we attached an ARE 4 stage dry sump oiling system, a hybrid set of LS7/CTS-V front accessory drives, and then Ryan started building a custom set of 1-7/8" long tube headers. We also re-did the seat / floor mounting (version 3), built a bunch of aluminum interior panels/floors, and mounted a giant rear wing with custom uprights and end plates.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Cq358h7/0/d04fe093/L/B61G9676-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Cq358h7/0/d04fe093/X3/B61G9676-X3.jpg)

The engine bay also received a lot of attention. A custom radiator and fans were ordered, brackets were made for a "rolled forward" installation, then custom radiator hoses built. An MSD Atomic manifold and 102mm throttle body were installed - backwards - and a custom dual airbox / cowl induction intake system was then built, with plenum sections extending behind the firewall and under the dash. Continue below to see the behind-the-scenes construction of all of this and more.

CARBON FIBER HOOD

The minimum weight we are allowed to run this car is fairly low in some series, and to get there we will have to eschew metal body panels for carbon fiber composites - where practical. Of course there are some exterior pieces that are very customized (flares) and it doesn't make sense to "go carbon" there just yet, but the hood, roof, and trunk panels are readily available so we went to AJ Hartman Aero for his motorsports level, lightweight, dry carbon hood to match the roof he supplied us earlier.

https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-FVzGtsP/1/a0f6063d/S/DSC_7926-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-FVzGtsP/1/a0f6063d/X3/DSC_7926-X3.jpg) https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-shLfGqH/0/eda1a042/S/DSC_7947-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-shLfGqH/0/eda1a042/X3/DSC_7947-X3.jpg)

The first hood we received suffered some heavy shipping damage - but we purchased that one anyway, fixed it with some carbon fiber repair (shown in the 330 build thread here (http://www.vorshlag.com/forums/showthread.php?p=58560#post58560)), and used it on my BMW 330 which I race in NASA Time Trials. With a little bodywork and paint by our friends at Heritage it will look better - hoping to paint this car over the winter break (which is only about 2 weeks long, here in Texas!)

https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-WWDfwGf/0/3681a9c3/S/B61G8177-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-WWDfwGf/0/3681a9c3/X3/B61G8177-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WfXPShp/0/56561d21/S/B61G3113-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WfXPShp/0/56561d21/X3/B61G3113-X3.jpg)

For this M3 CSL V8 build we wanted to start with an unblemished hood, and the second one arrived (in a crate) with no issues. It looked perfect and was weighed in at an astounding 9.5 pounds! We don't have an accurate weight on an M3 hood, but the original steel hood from my E46 330 was 44.5 pounds.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dKjTv2S/0/1aa52e11/S/B61G3111-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dKjTv2S/0/1aa52e11/X3/B61G3111-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-tzjzDGC/2/cd490328/S/B61G3305-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-tzjzDGC/2/cd490328/X3/B61G3305-X3.jpg)

I can only "one hand" this hood because it is so light, with no glossy gel coat. Many aftermarket "carbon" hoods are made by: start with a fiberglass main structure, then add a thin carbon fiber overlay, then a thick glossy coat of resin on top to make it shiny. These end up being MUCH heavier.

The low weight on this "real" dry carbon hood also comes from the fact that about two thirds of the under hood structure is omitted. AJ builds this hood with a second layer of formed carbon fiber underneath to support the OEM style hinges and some of the side structure along the length, but leaves the middle and forward sections without the ribbing. The hood is made of several layers of carbon weave. Using the OEM style hood releases is not possible - because this is a racing part.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8xv3X4j/0/ce37f21e/S/DSC_7002-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8xv3X4j/0/ce37f21e/X3/DSC_7002-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-TkmQj2g/0/05e97b81/S/DSC_7001-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-TkmQj2g/0/05e97b81/X3/DSC_7001-X3.jpg)

The fenders needed adjustment to fit the hood - we bought this rolling chassis with no front sheet metal or hood installed. The OEM "J-clips" were gone so Ryan installed proper nutserts into the upper frame mounting sections. The original fenders from my blue 2001 330 were then tweaked to fit and squared to the front end, all fitted around the carbon hood (top left). One of the old hood hinges was very bent so a new one was ordered and installed (top right).

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-m74k2NR/0/b5034844/L/B61G3131-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-m74k2NR/0/b5034844/X3/B61G3131-X3.jpg)

After some time re-hanging the fenders (plus slotting some fender mounting holes) and tweaking the hinges, the hood and fenders fit nearly perfectly. We'll let the body shop do the final body gaps perfect, but I'm pretty happy with how it all squared up. Its gonna be a shame to cut a bunch of holes in this hood!

https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-5fLDntX/0/e5bbe4f5/S/DSC_7967-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-5fLDntX/0/e5bbe4f5/X3/DSC_7967-X3.jpg) https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-HMXKQv7/0/58bbbde2/S/P6070706_CH-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-HMXKQv7/0/58bbbde2/X3/P6070706_CH-X3.jpg)

Since the twin OEM hood lathes and secondary catch aren't used with this hood we will need to install some AeroCatch hood latches - similar to how this pair shown above went onto my 330 using the same hood. These have functioned great for months without issue on that car, and we have used AeroCatches on many race car builds. Ryan will reinforce the radiator support on the M3 for the two hood pins, just like he did on my 330.

SEAT MOUNTING VERSION 3.0

This may seem excessive, to go back for a third time to modify the floor and seat mounts, but its pretty dang critical. We did this round of re-work gratis, as we just were not happy with how the floor structure turned out after lowering the seat. And frankly the seat was too low for the customer. There might be a taller driver that takes laps in this car, but the owner is the primary driver, so we build around him.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VTLV4fC/0/dac0c7d0/S/IMG_5474-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VTLV4fC/0/dac0c7d0/X3/IMG_5474-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-s5cPp2n/0/a60a33cc/S/DSC_5864-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-s5cPp2n/0/a60a33cc/X3/DSC_5864-X3.jpg)

Cutting out all of the OEM seat reinforcements, the two "risers" that travel from the door sill to the tunnel, weakened the floor structure enough to allow flexing of the floor if we pushed hard enough at the top of the seat. Not good enough. The problem was we were trying to make the seat low enough so his head can NEVER come close to the upper door bars, as this car may be street driven at some Optima events on the "road rally" portion without a helmet. It is ALWAYS tricky to make a safe roll cage for a street driven car. In a dedicated race car it is assumed the driver will always have a helmet on.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-txvQgkg/0/45c2f159/L/DSC_9598-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-txvQgkg/0/45c2f159/X3/DSC_9598-X3.jpg)

So now instead of a tubular seat brace that bolts to the thin sheet metal floor, then the side brackets and/or slider bolt to that... Ryan has made this 3D structure of plate steel reinforcements that is similar in layout to the OEM stamped bits - but lower and thicker. The OMP side brackets now bolt to this reinforced structure, which is welded to the non-flat floor along the bottom seam. This new structure now takes up for the funky floor shape, is lower than the OEM reinforcements could allow, and much more rigid and strong than what we had in version 2.

HYBRID ACCESSORY DRIVE + DRY SUMP PUMP

We normally use the 1998-2002 Camaro LS1 front drive accessories on both our E36 and E46 LS swap kit installs, as these offer the most compact layout of power steering pump, alternator, and water pump without fouling the frame rails or inner fenders. These 4th gen drives do push the pulleys forward in the engine bay more than the Corvette C5/C6 drives, but less than the LS truck drives. For this build we knew we needed a dry sump pump and we wanted to roll the radiator, which could put the bottom of the radiator close to the engine. To make room forward we looked at the C5 and C6 accessory drives for this build, but the traditionally high mounted Corvette alternator would need to move. Plus the power steering pump would need to be deleted.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-6NMwpBh/0/b1be1e41/L/LS-drives-nandt-L.jpg

http://www.nookandtranny.com/Info_LSx.php#LSFrontDriveConfig

The above link from Nook and Tranny is a great resource for LS drive layouts.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Npg2C38/0/164a4af9/M/2013-Chevrolet-Corvette-Z06-LS7-V-8-engine-M.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Npg2C38/0/164a4af9/XL/2013-Chevrolet-Corvette-Z06-LS7-V-8-engine-XL.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9zd4c6s/0/c3b05b89/M/LS2-CTSV-drives-M.jpg

You can see the factory C6 Corvette Z06's LS7 engine accessory drive setup above at left and the LS2 CTS-V drives at right. Note the very HIGH and WIDE mounted alternator, common on the C5/C6 Corvette setups. Plus the power steering pump placement for the C6 - which we don't need due to the electric EPAS steering we have added.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LFCbftP/0/51872387/S/P5250691-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LFCbftP/0/51872387/X3/P5250691-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-v9LKZg8/2/284a1290/S/B61G8884-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-v9LKZg8/2/284a1290/L/B61G8884-L.jpg)

For this M3's accessory drive setup we used a hybrid assortment of parts: the water pump and upper tensioner/idler from a 2010-13 Corvette C6 LS7 and the low mounted alternator and idler pulleys from a CTS-V LS2. Ryan machined a custom spacer, used a threaded hole on the CTS-V alternator bracket, and added a second "smooth" idler pulley near the alternator - the lower one shown in the picture, above right. The Pontiac G8 alternator bracket we used on some other Ls swaps sits in a similar spot but uses different brackets (https://photos.smugmug.com/Projects/99-Miata-LS1/i-cBQWCJ9/0/bf4212f4/M/DSC_9685-M.jpg). This second idler helps give enough "belt wrap" around the main balancer pulley for the unusual "power steering delete" belt routing.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-C7wqJh9/0/d50de4f1/S/DSC_7183-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-C7wqJh9/0/d50de4f1/X3/DSC_7183-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PJHn4gV/0/aca00858/S/DSC_9026-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PJHn4gV/0/aca00858/X3/DSC_9026-X3.jpg)

We chose the later LS7 water pump, which moves the water neck closer to the driver's side - making a shorter hose run to the radiator. Since we had never done this custom accessory drive layout before, once the final engine was here (with the balancer installed by HPR) a bit of measuring and a couple of belts were tested before the final serpentine belt length was nailed down.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gtw9qbs/1/57060e97/S/IMG_5907-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gtw9qbs/1/57060e97/X3/IMG_5907-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7P5XrdX/2/64db8b8d/S/IMG_5911-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7P5XrdX/2/64db8b8d/X3/IMG_5911-X3.jpg)

While the HPR shortblock was awaiting the CNC cylinder heads, we borrowed the ARE 4 stage dry sump pump temporarily - to make sure we had no interference with the accessory drive bits we planned to use. The dry sump pump fits in the spot where the A/C compressor mounts - low and to the passenger side of the engine.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PJHn4gV/0/aca00858/S/DSC_9026-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PJHn4gV/0/aca00858/X3/DSC_9026-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bWmmr8j/0/727ebc13/S/DSC_9144-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bWmmr8j/0/727ebc13/X3/DSC_9144-X3.jpg)

So this hybrid accessory drive setup gives us the best of both worlds: a low mounted alternator (CTS-V) along with a short drive setup front to back (Corvette). This added room up front with this drive setup will come in handy when we mount the radiator (below). This also opened up the top of the engine bay, near where we will duct the hood later.

CUSTOM LONG TUBE HEADERS

For an engine this big something larger than our production E46 LS Swap 1-3/4" primary long tube headers were part of the plan. We couldn't wait for the finished HPR 7.7L long block to arrive to begin the custom 1-7/8" primary header fabrication, so a mock-up engine and new accessory drive were installed for the early fab stages.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RG3kLFS/1/2e30f507/S/DSC_8637-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RG3kLFS/1/2e30f507/X3/DSC_8637-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-tvLZWP5/0/27694b9f/S/DSC_8082-S.jpg

We were using bends, flanges, and collectors from a new supplier, and there were some... "issues outside of our control" that slowed delivery of the additional parts we needed to finish these for a few frustrating months.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7HZQ2Kt/0/6ef6dfe1/S/DSC_8079-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7HZQ2Kt/0/6ef6dfe1/X3/DSC_8079-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ZCLpZVX/0/cebad9df/S/DSC_8114-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ZCLpZVX/0/cebad9df/X3/DSC_8114-X3.jpg)

There was also an extremely long delay waiting for a new set of ICE Engine Works modeling bends for this 1-7/8" primary size. After months of waiting we finally punted and used our 1-3/4" (orange) bends to simulate the layout of the tube for the larger tubing size. It slowed things by a bit but Ryan got through the driver's side header.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-vtJ6QxJ/1/50b9a194/S/DSC_8657-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-vtJ6QxJ/1/50b9a194/X3/DSC_8657-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3jnthjN/1/3985326d/S/DSC_8760-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3jnthjN/1/3985326d/X3/DSC_8760-X3.jpg)

During one of the extended waits for more bends the custom steering column was completed with this firewall mounted steering shaft bearing. The somewhat large factory hole for the OEM column was closed up, then a new hole was drilled to fit the bolt pattern of the firewall bushing.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9vvdC5t/1/4eb28b20/S/DSC_8790-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9vvdC5t/1/4eb28b20/X3/DSC_8790-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-vDHWt2F/1/2fac28cb/S/DSC_8794-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-vDHWt2F/1/2fac28cb/X3/DSC_8794-X3.jpg)

While he was working on the firewall, Ryan made a template (above left) then an aluminum panel with a 3D shape (above right) to cover holes in the firewall for the brake booster/master cylinder and a wiring harness. This panel was then covered in DEI reflective gold foil. With that area sorted out, the final section of the header on the driver's side could be built - if we only had supplies.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8Zd6bnJ/0/9c10d73f/S/P9290670-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8Zd6bnJ/0/9c10d73f/X3/P9290670-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mB3KdF9/0/1503d771/S/P9290674-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mB3KdF9/0/1503d771/X3/P9290674-X3.jpg)

A couple of months later we finally had enough matching bends - and the driver's side header is complete. This past week Ryan was on the passenger side header, which will be wrapped up soon.

continued below

Fair!
10-10-2017, 01:52 PM
continued from above

HPR 7.7L LS7 V8 DELIVERED!

We ordered a 442" stroker engine for this project last year, before engine builder Erik Koeing moved to a new shop in McKinney, Texas. While instructing for at the School of Automotive Machinists (SAM Tech) he started his own engine shop 2 decades ago. Koeing and I have been friends for 30 years and another business owner friend of mine and I partnered with him to bring his shop to the Dallas area, which we relaunched as HorsePower-Research (HPR). He has been working with LS engines since they were introduced, and the standard deck aluminum block 468" is one of his popular creations. After he was setup in the new shop we changed the 442" build to a 468", changed the cylinder head choice to an LS7 style, and this pump gas fueled, naturally aspirated 7.7L beast was the result.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-MpSnDPS/1/9727f51e/M/IMG_5912-M.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-MpSnDPS/1/9727f51e/X3/IMG_5912-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-B2Dprpb/1/4a9bebec/M/IMG_6089-M.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-B2Dprpb/1/4a9bebec/X3/IMG_6089-X3.jpg)

This engine started with a dry sleeved, aluminum OEM block with a 4.250" stroke and honed to a 4.185" bore. The forged crank uses HPR's propriety forged rods and pistons, coupled with some block clearancing, to make it all fit. Koenig has built dozens of these 468s for street, drag race and road racing applications - the biggest displacement anyone has safely built inside an OEM LS block.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cfVCxpr/1/9b2495ca/S/IMG_6086-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cfVCxpr/1/9b2495ca/X3/IMG_6086-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-jJ6H2Wc/1/d680dcb3/S/IMG_6088-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-jJ6H2Wc/1/d680dcb3/X3/IMG_6088-X3.jpg)

The blueprinted shortblock was assembled with CNC ported, LS7 style cylinder heads made by Texas Speed. A high lift hydraulic roller camshaft was built to Koenig's specs for this pump gas, road course setup. A similar 468" was recently built for an Optima competitor and made 604 whp - with smaller heads, smaller cam, and smaller headers (described here (http://www.enginelabs.com/news/horsepower-research-saves-racers-season-with-ls-engine-upgrade/)). We're hoping to see 650 whp from this on 93 octane, with the intake manifold we have started with.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8t4ChNK/1/10dbf433/S/IMG_6199-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8t4ChNK/1/10dbf433/X3/IMG_6199-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-FXThbKB/0/7e77755a/S/DSC_9018-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-FXThbKB/0/7e77755a/X3/DSC_9018-X3.jpg)

We were excited when the cylinder heads arrived and I could pick up the completed long block. I brought it to Vorshlag for final drivetrain assembly and installation into the M3.

RAM CLUTCH + 7.7L INSTALL

To deal with 700 ft-lbs of torque we went went with the strongest commercially available 6 speed manual - the Tremec T56 Magnum. This Tremec is rated right at 700 ft-lbs of torque, which we will be testing with this engine.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7WhQK6J/0/8628518d/S/DSC_9040-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7WhQK6J/0/8628518d/X3/DSC_9040-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-MmMwcgX/0/7b176518/S/DSC_9037-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-MmMwcgX/0/7b176518/X3/DSC_9037-X3.jpg)

This build has higher safety levels than most so an SFI rated scattershield was chosen instead of a cast aluminum bell housing. This unit from QuickTime bolts to the T56 Magnum and fits the LS engine. Well... "fits" is a loose term. ;)

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pfw9x2v/0/a50d51a7/L/IMG_6535-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pfw9x2v/0/a50d51a7/X3/IMG_6535-X3.jpg)

For the clutch we went with a custom version of the Mag Force twin disc setup from McLeod, highly recommended by our transmission supplier. This has a unique Kevlar friction surface that should work well with the standing starts needed for Optima Speed/Stop and Autocross events and still handle the power this 7.7L can dish out on the road course.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RKCBzjM/0/718dd067/S/DSC_9041-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RKCBzjM/0/718dd067/X3/DSC_9041-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-swPbNdt/0/1878c194/S/DSC_9048-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-swPbNdt/0/1878c194/X3/DSC_9048-X3.jpg)

Everything was assembled with care, checking torques and sequencing. Once everything was lined up the bell housing was aligned to the centerline of the crank by checking run out with a dial caliper. The twin disc clutch was aligned with a steel alignment tool and the transmission was installed... but it just would not line up.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VmFdCLk/0/22611919/S/P8100293-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VmFdCLk/0/22611919/X3/P8100293-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-KvZrSBB/0/281c03ba/S/DSC_9121-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-KvZrSBB/0/281c03ba/X3/DSC_9121-X3.jpg)

The clutch, flywheel and bell housing were re-aligned and re-checked more than once. Turns out that aftermarket welded scatter shields sometimes don't exactly line up as perfectly as a cast piece that is CNC machined. Using some offset dowels in the block and this scatter shield alignment tool above the QuickTime unit was finally aligned.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7XkV7dg/0/f3e72934/S/B61G8876-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7XkV7dg/0/f3e72934/X3/B61G8876-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WWqggPW/0/2f4c4531/S/P8100290-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-WWqggPW/0/2f4c4531/X3/P8100290-X3.jpg)

The McLoed clutch slave/TOB was installed for the final time and the transmission went into the bell housing. The engine/trans was finally ready to go into the engine bay of this M3.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-T74w2vw/0/dfc23dd4/S/B61G8879-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-T74w2vw/0/dfc23dd4/X3/B61G8879-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-66GLWxB/0/4dc086c5/S/B61G8885-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-66GLWxB/0/4dc086c5/X3/B61G8885-X3.jpg)

With the front nose and radiator support removed its easy to stick the engine and transmission assembly into the car. We used our production E46 LS swap kit motor mounts and transmission crossmember to line it up in the engine bay.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7vf2Rf3/0/5bc457c6/S/P8210324-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7vf2Rf3/0/5bc457c6/X3/P8210324-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bfnF3pF/0/1f76fc72/S/P8210323-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bfnF3pF/0/1f76fc72/X3/P8210323-X3.jpg)

The dry sump pump was bolted on once the engine was in the car, to avoid smashing the shiny bits or fittings. The front drive accessories were already installed with the serpentine belt, then the cogged belt went onto the dry sump drive.

RADIATOR INSTALLED + HOSES BUILT

Spec'ing the radiator for this project took a little bit of work. This 7.7L motor would need the biggest radiator we could fit in front of the motor. We also wanted to duct the hood and "roll" the radiator forward at the top, so that meant we wouldn't be using an off-the-shelf aluminum E46 radiator.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LWfQKJh/0/2a0e38ab/S/DSC_7142-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LWfQKJh/0/2a0e38ab/X3/DSC_7142-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9QKrbGD/0/ae557ca5/S/DSC_7838-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9QKrbGD/0/ae557ca5/X3/DSC_7838-X3.jpg)

I asked Ryan to clear away anything in the way between the frame rails then measure for the widest core we could squeeze in there (27"). The center portion of the lower stamped piece of the radiator support was completely cut out. He then built a cardboard mock-up to verify the max height core possible. Then we had to spec the hose outlets for an LS engine accessory layout, with the suction on the passenger side and water pump outlet on the driver's side. The goal was to shove as much of the radiator forward under the radiator support as possible without running into the front nose or crash beam. Unfortunately the headlights became a limiting factor for forward roll of the radiator, so the bottom of the core was pulled back closer to the balancer, to gain more angle and radiator height room.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8FBLRSf/0/72f5135a/L/P5110604-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8FBLRSf/0/72f5135a/X3/P5110604-X3.jpg)

The mock-ups and other specs led us to a BeCool 60229 radiator, which was custom ordered back in May. It took a while to be built and shipped here but when it arrived Ryan made brackets to mount it in the layout we wanted.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SH4cSRt/0/d06cb450/S/DSC_9156-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SH4cSRt/0/d06cb450/X3/DSC_9156-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-XVHzsSq/0/b168e92e/S/DSC_9155-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-XVHzsSq/0/b168e92e/X3/DSC_9155-X3.jpg)

After the motor was installed with the balancer in place the BeCool unit was mocked-up in the final rolled forward position. Templates for brackets were cut and transferred to aluminum plate, which were cut, drilled and welded to the side tanks of the radiator.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-BLv9Bsr/0/34b54932/S/B61G9069-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-BLv9Bsr/0/34b54932/X3/B61G9069-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mWC539X/0/3ebbffc5/S/B61G9076-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mWC539X/0/3ebbffc5/X3/B61G9076-X3.jpg)

The brackets were drilled for mounting holes that allowed them to bolt to the frame rail. Nutserts were drilled and installed into the frame rails for these mounting bolts, shown below. These initial mounts are bolted directly to the frame but about 1" of room was left to add some isolators. We will do this when we build the ducting, as well as possibly add a secondary set of mounts at the top and/or bottom.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-csB6fmk/0/51ba3e89/S/B61G9079-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-csB6fmk/0/51ba3e89/X3/B61G9079-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-HMhmLmR/0/d14ff791/S/B61G9090-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-HMhmLmR/0/d14ff791/X3/B61G9090-X3.jpg)

More calculations were done and the slimmest, highest flowing pair of fans that covered the most area of the core were ordered.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DWXccvB/0/4d1e3851/L/B61G9691-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DWXccvB/0/4d1e3851/X3/B61G9691-X3.jpg)

These Mishimoto Slim 12" electric fans (MMFAN-12) each flow 1150 cfm. A bracket was built along the top and bottom to mount them close to the radiator core. There are more powerful fans in 12" but they were all thicker and could run into parts of the engine.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PgPhzSB/0/2619f913/S/DSC_9511-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PgPhzSB/0/2619f913/X3/DSC_9511-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-FmfTLxP/0/1221f22b/S/DSC_9549-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-FmfTLxP/0/1221f22b/X3/DSC_9549-X3.jpg)

Some custom radiator hoses were built from HPS silicone hose bends and some mandrel bent and straight aluminum tubing. The front of the radiator core will be ducted to the gill openings at the front and to the hood opening behind it - we will show this later in the build.

continued below

Fair!
10-10-2017, 01:59 PM
continued from above

INTAKE MANIFOLD TESTING + REVERSE MOUNT

After talking to Koenig at HPR at length about intake manifolds, he kept stressing how important it was to use the right design for larger displacement (7L+) engines. To keep the engine from peaking too early, and losing all of the top end power, a shorter intake runner length (6.5-7" long) with enough cross section and throttle body size would help. There are many manifolds that have MUCH shorter runners (which kills mid range completely and rarely helps on top in an NA motor) and all too many with OEM style, LONG runners (which shuts off the top end). Not many in the middle...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-f6pfL7v/0/9a734ce4/S/holley-hi-ram-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-f6pfL7v/0/9a734ce4/X3/holley-hi-ram-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mRT6p4g/0/487b0461/S/IMG_8425-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mRT6p4g/0/487b0461/X3/IMG_8425-X3.jpg)

One of the few that have runner lengths and TB sizes in the range we wanted was the Holley Hi-Ram (http://www.lsxmag.com/features/tech-inside-holley%E2%80%99s-hi-ram-modular-intake-manifold-for-ls-engines/), which comes in cathedral, LS3 and LS7 style ports. With an optional 105mm throttle body opening and a 6.5" runner length (which is almost perfectly straight) the Hi-Ram could be worth another 30-50 whp up top. After I found the CAD print (top left) for this I asked Ryan to make a quick cardboard mock-up to check hood height. That was ridiculously too tall, and even flipped 180° to make it a "cowl breather" it was still many inches above the hood line (see above right). Like "making it hard to see" tall. We talked about making a custom intake but it was really time to "get going" so we picked the best OEM style intake on the market for the moment: the MSD Atomic.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3wZnRdM/0/9ce87468/S/DSC_9150-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3wZnRdM/0/9ce87468/X3/DSC_9150-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bHfDCJ3/0/6e069c89/S/DSC_9151-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bHfDCJ3/0/6e069c89/X3/DSC_9151-X3.jpg)

Of the OEM style crossover intakes the MSD Atomic LS7 intake (http://www.lsxmag.com/tech-stories/engine/tech-we-dyno-test-msds-airforce-ls-intake-manifold-at-lme/) has the "least long" runners at 8.5". The 103mm throttle body size is a bit unusual, as the common "big" sizes are 102 and 105mm. Then a lot of those options are cable operated - old school. To work seamlessly with a Motorsports traction control system we went with a Nick Williams 102mm DBW (Drive By Wire) throttle body.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SH4cSRt/0/d06cb450/S/DSC_9156-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SH4cSRt/0/d06cb450/X3/DSC_9156-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Dgsd7c3/0/3a33c506/S/DSC_9157-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Dgsd7c3/0/3a33c506/X3/DSC_9157-X3.jpg)

This manifold bolted onto the HPR motor without any drama, and with the TB opening pointed forward it fit under the hood easily. But we're not going to keep this build easy... we wanted to flip the intake manifold 180° to keep the front clear for hood ducting (which we will show in a future installment) and to take in high pressure air at the base of the windshield (cowl). This "little change" unleashed a lot of custom fabrication work....

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-KVwgg2L/2/924654a9/S/B61G8876-S.jpg https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Zf9gpcJ/2/f697d153/S/B61G9572-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Zf9gpcJ/2/f697d153/L/B61G9572-L.jpg)

First of all, the OEM cast aluminum intake valley cover has an oil pressure riser cast into the back of the motor. You can see the red colored tip of this riser in the image above left. Most LS style intakes have a recessed edge to clear this at the back of the manifold, which can be seen in the image above right.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7rR8t24/0/81ebbc7c/S/DSC_9158-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7rR8t24/0/81ebbc7c/X3/DSC_9158-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LMP4vjP/0/e181fcbb/S/DSC_9153-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LMP4vjP/0/e181fcbb/X3/DSC_9153-X3.jpg)

So to be able to flip this intake around we needed a flat valley cover with this oil pressure sensor riser deleted. This flat billet cover from ICT fit the bill and was an easy fix. This was installed and let us run the MSD Atomic flipped 180°. But as you can see above, there was no room at the firewall for the throttle body. I was hoping the TB might line up with the massive opening left by the cabin air filter structure, but this intake is too low to line up with that. Time to cut...

TWIN AIRBOX + COWL PLENUM FAB

To make this flipped intake fit we needed to cut the firewall up a little. Well.... OK, a lot.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-HFgcKcR/0/ed688ee5/S/DSC_9336-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-HFgcKcR/0/ed688ee5/X3/DSC_9336-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sk6W7pX/0/5b402d43/S/P9070608-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sk6W7pX/0/5b402d43/X3/P9070608-X3.jpg)

This was the first stage of making a cowl induction intake system. You see with a mostly gutted dash and aftermarket HVAC box mounted elsewhere, and relocated master cylinder and no brake booster, all of a sudden we had a lot more real estate under the dash and at the firewall. So Jason, Ryan and I brain stormed an airbox mounted at the base of the windshield with a flat air filter element. Or two.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-KZVLCNH/0/ad27bb33/S/DSC_9335-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-KZVLCNH/0/ad27bb33/X3/DSC_9335-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Q3VS8sQ/0/ff059131/S/B61G9570-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Q3VS8sQ/0/ff059131/X3/B61G9570-X3.jpg)

To maximize airbox volume we wanted to use a flat element air filter. Due to some space constraints in area, as well as off-the-shelf filter elements and their associated airflow limitations, we needed TWO air filter boxes. So we ordered those up while Ryan started building a plenum at the throttle body.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-J3zS9PH/0/a447fedb/S/DSC_9420-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-J3zS9PH/0/a447fedb/X3/DSC_9420-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-qPpkcqJ/0/c630180a/S/B61G9587-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-qPpkcqJ/0/c630180a/X3/B61G9587-X3.jpg)

This box above will attach to the 102mm throttle body and create a certain amount of plenum volume for the engine to draw from. Air will enter through each of the 3" oval openings from the two air boxes. The constraints of the hood and engine placement limited the intakes to these 3" oval sizes.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mcfZ95r/0/f2154af0/S/B61G9556-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mcfZ95r/0/f2154af0/X3/B61G9556-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2q96Xgp/0/00ca495a/S/B61G9486-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-2q96Xgp/0/00ca495a/X3/B61G9486-X3.jpg)

The 4" opening to the throttle body has a formed bell mouth and the box itself sits up under the dash. Ryan will make another fire proof enclosure to completely surround this and seal the engine compartment away from the passenger cabin/dash area (see below/left)

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-6xVCHPr/0/4114ed11/S/DSC_9437-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-6xVCHPr/0/4114ed11/X3/DSC_9437-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-G7zJ6RJ/0/4993c705/S/DSC_9438-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-G7zJ6RJ/0/4993c705/X3/DSC_9438-X3.jpg)

Twin air filter boxes were built, one for each side of the engine bay. They are somewhat mirror images but they do have some differences side to side, which are underneath.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-w3gCWGr/0/72b25f3b/S/DSC_9430-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-w3gCWGr/0/72b25f3b/X3/DSC_9430-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dWD22Qr/0/58d20ee3/S/B61G9616-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dWD22Qr/0/58d20ee3/X3/B61G9616-X3.jpg)

These air filter boxes mount to the chassis and then 3" tube and 3" silicone hose couplers route the "cold air" to the throttle body plenum box. Two K&N filters fit snugly into the tops of these air boxes and we will add some additional structure and seals that touch the bottom of the hood soon. These will mate up with two big holes we will cut in the hood to feed these filters.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nXCP8PH/0/ef6852e9/L/B61G9686-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nXCP8PH/0/ef6852e9/X3/B61G9686-X3.jpg)

A couple of dozen hours went into the firewall clearancing, layout, plenum box fab and two air box fab work, but it should be more than able to supply this air to engine. This is being fed by a high pressure zone at the base of the windshield, which will help "at speed". And it all will help the Optima Design & Engineering scoring, too. Again, this is really being done to open up the front of the engine bay for hood ducting, to improve downforce on the splitter (soon) and improve cooling on the main radiator.

INTERIOR PANELS + STEERING WHEEL

Up to this point we haven't shown much of the interior or our plans to make it safe yet pleasing to the eye. Gotta pass muster for D&E - they really punish gutted race cars in Optima, unless some real attempts at "an alternative interior" are made. Initially we just had roll up windows and custom door panels, but the rest was pretty Spartan. All business, no frills, and somewhat ugly. Time to spruce it up in there...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-q2RdDZd/0/d7ac872a/S/B61G1529-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-q2RdDZd/0/d7ac872a/X3/B61G1529-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sF4CR4X/0/5ab8369b/S/DSC_6081-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sF4CR4X/0/5ab8369b/X3/DSC_6081-X3.jpg)

This interior was largely gutted when we found it, along with the air bags. The stock HVAC is also too heavy for a build like this, but we did add a compact heater core and blower motor unit that we've used on a number of race cars (just like on the tube frame 69 Camaro build). This 7 pound unit from Summit Racing is cost effective, compact, and much lighter than the OEM parts. This box was mounted under the dash on the passenger side and the outlets will be plumbed to the defroster vents soon. No air conditioning is going to be added - too heavy, and there is no place to drive an AC compressor with a 4 stage dry sump pump in the way.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9KFG79H/0/77f3e432/S/DSC_6179-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9KFG79H/0/77f3e432/X3/DSC_6179-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-d746x8x/0/81e9da63/S/DSC_6155-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-d746x8x/0/81e9da63/X3/DSC_6155-X3.jpg)

Another Tilton triple reservoir was purchased (also like on the 69 Camaro), which will feed the twin brake and single clutch master cylinder from the OBP floor mounted pedal box. This Tilton unit was mocked up and then mounted on the passenger side. Why have this in the passenger compartment? Three reasons. 1) Being visible to the driver makes it easy to see if fluid LEVELS drop during a session (indicates pad wear or a leak). 2) It makes it easy to fill the fluid levels, not buried down by the floor mounted pedals. 3) It keeps the bulk of the fluid away from heat in the engine bay.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ZStPzxc/0/1c39b6ac/S/DSC_6169-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ZStPzxc/0/1c39b6ac/X3/DSC_6169-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-HKSwm6Z/0/55ba2a39/S/DSC_9620-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-HKSwm6Z/0/55ba2a39/X3/DSC_9620-X3.jpg)

A few weeks later Ryan went back and made -4 AN braided lines for the reservoir and ran them to each master cylinder.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wnvXwNG/0/39a7c453/S/P7260102-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wnvXwNG/0/39a7c453/X3/P7260102-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-xS4TTBH/0/467ee3f8/S/P7260095-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-xS4TTBH/0/467ee3f8/X3/P7260095-X3.jpg)

The spot your heel rests on at OBP pedal box was tied into a flat, false floor made of aluminum. A formed sheet aluminum dead pedal was also built and tied into the same section. These false floors are commonplace in race cars, and with the unusual non-flat floors of the BMW E46 they are pretty much a requirement if you remove the carpet and massive foam backing.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LG65KQD/1/a4a38dbd/S/DSC_8824-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LG65KQD/1/a4a38dbd/X3/DSC_8824-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fk8V7FT/0/1f118222/S/DSC_9618-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fk8V7FT/0/1f118222/X3/DSC_9618-X3.jpg)

These were formed from 6061 sheet then dimple die holes were added on the press. We will add grip tape to the surfaces later, to keep your feet from sliding around if they get wet. The passenger side false floor was started but still needs some dimple die work.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-JB5T4zZ/0/011b76e2/S/DSC_9431-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-JB5T4zZ/0/011b76e2/X3/DSC_9431-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-S25R7w3/0/ba264dd0/S/B61G9107-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-S25R7w3/0/ba264dd0/X3/B61G9107-X3.jpg)

We couldn't leave the stock steering wheel in place so we ordered a Sparco wheel and Lifeline quick disconnect hub. This wheel fit the driver's position and has the right covering, and the Lifeline is the best quick disconnect on the market.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rBtZDxK/0/8fc8ea53/S/P9120623-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rBtZDxK/0/8fc8ea53/X3/P9120623-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VwJfkGJ/0/0a8932f8/S/B61G9102-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VwJfkGJ/0/0a8932f8/X3/B61G9102-X3.jpg)

Window nets might seem a bit extreme for a car with roll up windows, and it is unusual. But for a "street car" this M3 has an unusually high speed threshold, so the safety gear isn't being skimped anywhere. This mesh window net has great visibility but keeps "your arms and hands inside the ride at all times". We will add a center net later as well.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VQt8NP9/0/15c3852f/L/B61G9681-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VQt8NP9/0/15c3852f/X3/B61G9681-X3.jpg)

A lot of aluminum panels were built, which help fill holes in the dash where the radio, HVAC controls, and stock gauge cluster went. An AiM digital dash, possibly a rear view camera/LCD screen, and the fire pulls and main battery kill will go back into these places. A new set of "Titanium" OEM trim panels was ordered from BMW and installed to fill the gaps between the 2-pieces in the upper and lower dash sections. We will get a little crazier with interior panels and finishes before the car ever does an Optima event, but its already a lot better than the plain "gutted race car" look.

continued below

Fair!
10-10-2017, 02:02 PM
continued from above

WANGIMUS MAXIMUS

"Big Downforce" is part of the "Bigger is Better" mentality we are applying to many aspects of this build. Of course a giant rear wing was ordered from AJ Hartman Aero - a full 72" wide and with his longest 14" cord.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Hs2z7B9/0/d675ac31/L/DSC_9045-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Hs2z7B9/0/d675ac31/X3/DSC_9045-X3.jpg)

We have installed plenty of rear wings but on a car that could see speeds in excess of 180 mph, it needed to be a bit overbuilt.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sw6jzWx/0/5499922a/S/DSC_8187-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sw6jzWx/0/5499922a/X3/DSC_8187-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-scHCJMN/0/cf88be51/S/DSC_8183-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-scHCJMN/0/cf88be51/X3/DSC_8183-X3.jpg)

After deciding where the uprights would be (and thus the under-mount saddles) we ordered the wing. When it was delivered we played with mounting locations, getting the element where it could "do the most work" - way up high and far back - then Ryan made cardboard mock-ups, which progressed into plate aluminum versions. We had thought about a bent upright, but that was quickly abandoned in mock-up.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-g3NMhjH/0/327608e0/S/DSC_8907-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-g3NMhjH/0/327608e0/X3/DSC_8907-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wZg4XHL/0/f64bed3b/S/B61G8706-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wZg4XHL/0/f64bed3b/X3/B61G8706-X3.jpg)

We settled on this flat design that would be gripped with a steel U-shaped lower bracket, that could then be bolted to the trunk.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-6qH4Jh7/0/f002b160/S/DSC_8937-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-6qH4Jh7/0/f002b160/X3/DSC_8937-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Hhb5nSR/0/09709082/S/DSC_8938-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Hhb5nSR/0/09709082/X3/DSC_8938-X3.jpg)

Once these were cut, brackets made, and they were test fit the lower steel brackets were bolted to the trunk lid. The OEM steel trunk lid is very strong but we also extended the lower portion down to touch an adjustable perch onto the tubular rear bumper beam. We will made a "saddle" that looks prettier before paint, but this puts much of the vertical load into this beam and less on the trunk structure.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fVBbhcf/0/2fbaa685/S/DSC_9628-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fVBbhcf/0/2fbaa685/X3/DSC_9628-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nNFFKGj/0/8234d7e6/S/DSC_8951-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nNFFKGj/0/8234d7e6/X3/DSC_8951-X3.jpg)

The trunk can swing open fully and the wing element clears the roof easily. This is due to the rear biased, high mounted placement of the wing element.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RRhJ9Hk/0/e4fc534e/S/DSC_8964-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RRhJ9Hk/0/e4fc534e/X3/DSC_8964-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NVzGQXq/0/2f87b9c9/S/DSC_8970-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NVzGQXq/0/2f87b9c9/X3/DSC_8970-X3.jpg)

The "windows" above were cut out by hand - using a hole saw and jig saw. There are much faster ways to do this using robots... a CNC water jet or plasma table makes this much faster but we didn't have the time to transfer all of this into CAD then run use someone's table. Yes, I need to buy the shop a CNC plasma table...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GDXZWSp/0/6b9a22c3/S/DSC_8971-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GDXZWSp/0/6b9a22c3/X3/DSC_8971-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-knBDsw3/0/8bc2efcd/S/DSC_8996-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-knBDsw3/0/8bc2efcd/X3/DSC_8996-X3.jpg)

The lightened uprights were completed and then endplate designs were tested and tweaked...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SzdDNGB/0/67f256c0/L/P8040182-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SzdDNGB/0/67f256c0/X3/P8040182-X3.jpg)

Some details on the image above (red line) have been completed but its the best picture I have of the finish wing currently.

GTL class - any spoiler or wing configuration with a maximum of 6” tall from its highest mounting point or a maximum height of 4” above the lowest point of the rear window, whichever is less. The maximum width of the spoiler/wing must be no wider than the original panels of the car and must not extend more than 6 inches past the furthest point of the rear of the car. No wing may exceed 8 inches in chord length (front to back) at any point.

We know that the 2017 aero rules for Optima are pretty limited and we will create a separate aero package for that series. We will use a carbon fiber trunk to mount that Optima aero package, which would make for a simple "trunk swap" to be legal for that series. The big wing would be used in NASA and other events.

https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-MJr2k9k/0/b519140b/S/B61G9582-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-MJr2k9k/0/b519140b/X3/B61G9582-X3.jpg) https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-jZv3X6X/0/c69a2851/S/B61G9729-S.jpg (https://photos.smugmug.com/Projects/Red-2001-BMW-E46/i-jZv3X6X/0/c69a2851/X3/B61G9729-X3.jpg)

A massive splitter, the soon-to-be ducted hood, and some other bits will make up the front aero. We just made this front splitter for my 330, but the one for the M3 will be bigger in every way.

WHAT'S NEXT?

Wow, that was a lot of ground to cover, and I didn't get to everything that's completed. Next time I will show the twin fire systems, chassis wiring that has begun, the fuel system components that have been arriving, and the Motec M1 + wiring harness which is being built by our friends at G-Speed.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NpsDgqV/0/56421338/S/DSC_9635-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NpsDgqV/0/56421338/X3/DSC_9635-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4gMpLSp/0/e377b72e/S/DSC_9631-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4gMpLSp/0/e377b72e/X3/DSC_9631-X3.jpg)

The rear differential is now assembled with a Wavetrac LSD and Ford Racing gears, the exhaust headers should be wrapped up soon, and then a driveshaft and exhaust can be built after that is in place. The custom coolant reservoir was just completed, heater hose plumbing has begun, and Ryan is spec'ing out the oil hoses next.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LQ3F56H/0/d5828d29/L/B61G9867-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LQ3F56H/0/d5828d29/X3/B61G9867-X3.jpg)

This is what the M3 looks like today. Tune in next time to see more progress!

Thanks for reading,

Fair!
01-23-2018, 01:09 PM
Project Update for January 23rd, 2017: Vorshlag got super busy over the past 3 months, so I am behind on build thread updates, but this project has been moving steadily along. Ryan has been plugging away on this M3 for 3 out of every 4 weeks since, and there is a lot to show here: Two fire systems, the custom headers finished, the 8.8" diff built and installed, fuel injectors and lines installed, oil lines build, chassis wiring, coolant reservoir + plumbing, battery kill, coils and plug wires, fuel cell installed, driveshaft built, interior panels, and brake inlets, whew!

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8bpVTgx/0/40d0d622/L/DSCN0771-L.jpg

I am going to speed up a bit and show fewer pictures for each task, unless it is super unique or interesting. Let's catch up this build in what is probably our last update before we fire the engine up!

FORD 8.8" DIFFERENTIAL HOUSING BUILD & INSTALLED

Normally we would tell E46 guys to just use the 210mm "large case" diff unit from the E46 M3, which can probably handle 600 ft-lbs of torque. As I mentioned before we wanted to build an aluminum 8.8" ring gear IRS housing strong enough to deal with 700 ft-lbs of torque. This Ford sourced unit is lighter, stronger, and has more cost effective options for gearing and differentials than anything ever offered by BMW.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pqwQk4N/0/27ab724c/S/PB271182-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pqwQk4N/0/27ab724c/L/PB271182-L.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-QVtGw2P/0/ec6f458b/S/DSCN0515-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-QVtGw2P/0/ec6f458b/L/DSCN0515-L.jpg)

This unit uses the custom steel rear cover shown in previous updates which bolts into the E46 M3 rear subframe. The front of the subframe was modified to use the two forward bushing mounts on the front of the Ford unit, with aluminum bushings we machined in-house.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NQXZpF3/0/0a891e86/S/DSC_9433-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NQXZpF3/0/0a891e86/X3/DSC_9433-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dgtHGqD/0/2f21c095/S/B61G9544-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dgtHGqD/0/2f21c095/X3/B61G9544-X3.jpg)

We chose the Wavetrac 31 spline 8.8" differential for this project. Wavetrac's torque biasing design is the only Torsion style differential made to work in no- or near no-load conditions (if a tire is lifted). The helical 9310 steel gears run in case-hardened billet steel case built with ARP fasteners. They are maintenance free and should perform a lifetime of service without maintenance or rebuilds (has a transferable, Limited Lifetime Warranty). We told them what we had in mind - a life of torque pushing 700 ft-lbs through 345mm Hoosiers - and they said "no problem", so we set up Vorshlag as a Wavetrac dealer.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bWdFWXJ/0/6bf8cf8e/S/DSC_9352-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bWdFWXJ/0/6bf8cf8e/X3/DSC_9352-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mf93VBs/0/5642d6b9/S/P9290665_cover-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mf93VBs/0/5642d6b9/X3/P9290665_cover-X3.jpg)

Several calculations were made to come up with a final gear ratio of 3.73:1, and of course we only use Ford Racing ring and pinion parts + Ford bearings. These were assembled into the freshly bead blasted and then thoroughly cleaned aluminum 8.8" Ford IRS housing.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ZFgg6xk/0/b010be5d/S/PB020941-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-ZFgg6xk/0/b010be5d/X3/PB020941-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NpsDgqV/0/56421338/S/DSC_9635-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NpsDgqV/0/56421338/X3/DSC_9635-X3.jpg)

A "set-up" bearing was installed on the pinion with a pre-crushed sleeve to shim and setup the ring and pinion depth, until Aaron saw the right pattern.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-FHx2gq9/0/bd05c7e4/S/P9290675-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-FHx2gq9/0/bd05c7e4/X3/P9290675-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mk5RhCm/0/42cbdbbe/S/DSC_9510-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-mk5RhCm/0/42cbdbbe/X3/DSC_9510-X3.jpg)

The side bearings were installed and shimmed with zero pre-load on the housing to get back-lash within range. Then Aaron built this tool to spread the aluminum housing...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3rRf89Q/0/6efbad1b/S/DSCN0315-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3rRf89Q/0/6efbad1b/X3/DSCN0315-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-CBdZtkn/0/ab39827f/S/DSCN0256-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-CBdZtkn/0/ab39827f/X3/DSCN0256-X3.jpg)

This spreader tool allowed him to then add .006" of pre-load on the side bearings for proper installation on the aluminum housing. There are some tricks to setting up the aluminum 8.8" IRS housing correctly...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-J6Xmj5w/0/f3c6b549/S/B61G0582-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-J6Xmj5w/0/f3c6b549/X3/B61G0582-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9r3xnPF/0/e26321fd/S/B61G0591-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9r3xnPF/0/e26321fd/X3/B61G0591-X3.jpg)

The side axle seals were added and the unit was installed into the chassis.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zJsZ2PS/0/7264802d/L/B61G0587-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zJsZ2PS/0/7264802d/X3/B61G0587-X3.jpg)

I will end this section with the shot above, showing the 8.8" housing, SPL Parts lateral arms with sphericals, and big fattie 345mm Hoosiers. This setup should be able to handle all the torque the 7.7L engine can throw at it.

OFFSET SHIFTER, SHIFT BOOT, HANDLE & KNOB

When we designed our LS swap kit for the E46 chassis we built it around the still somewhat common 1998-2002 F-Body Tremec T56. This OEM trans was rated at 400 ft-lbs of torque, which was OK when LS motors made 300-350 hp.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7XkV7dg/0/f3e72934/S/B61G8876-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7XkV7dg/0/f3e72934/X3/B61G8876-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-XzRxLXL/2/08adf552/S/DSC_9432-S.jpg

For this car we went straight to the T56 Magnum - which shares almost nothing with the OEM T56. The Magnum has 700 ft-lbs of torque rating, but the shifter is about 1.5" farther forward. The shifter that comes with the Magnum is shown sitting atop the tunnel in the pic above right. We used an SFI rated scattershield from QuickTime as well. Safety is important on this build.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-jrj35Mq/0/5e9ba5b9/S/DSCN0324-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-jrj35Mq/0/5e9ba5b9/X3/DSCN0324-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VQt8NP9/0/15c3852f/S/B61G9681-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VQt8NP9/0/15c3852f/X3/B61G9681-X3.jpg)

The stock round shifter opening is pretty far back relative to the Magnum's shifter placement, so Ryan cut out the tunnel to expose the opening for this trans, then made an aluminum plate to cover it all up. To this he mounted the aluminum base for the Joe's Racing shift boot attached (see above at left). This includes a heat shielded Nomex shift boot (just sitting over the console opening, above at right) which snaps in place to the provided aluminum base, making for a fire / fume / heat barrier between the underside of the trans tunnel to the cabin. We use these Joe's shift boots on everything.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cTS8qBg/0/6ec2698e/S/DSC_9654-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-cTS8qBg/0/6ec2698e/L/DSC_9654-L.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-MQtmxH7/0/b3e04270/S/DSC_9653-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-MQtmxH7/0/b3e04270/L/DSC_9653-L.jpg)

The Joe's Racing boot will hide under the OEM center console plastics (which are shown above without the boot) and underneath a second, OEM shift boot. The included Tremec shifter put the lever a bit too far forward to be able to re-use the factory center console. For a race car its no big deal but this car has to "look right" for Optima, so we ordered a McLeod offset shifter to fit the Magnum. This custom built unit has 1" right and 3" rear offsets. The images above show the McLeod shifter in place - notice the handle stub lines up with the old "round" shift hole opening. We've used these shifters on previous builds like this when the shifter doesn't line up with some OEM console pieces.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-d4qZ63Q/0/793f87ec/S/DSCN0401-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-d4qZ63Q/0/793f87ec/X3/DSCN0401-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-chT3VSh/0/f4178651/S/PB150997_shiftknob-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-chT3VSh/0/f4178651/X3/PB150997_shiftknob-X3.jpg)

Once the McLeod shifter was in place a simple Hurst handle and 6-speed patterned black knob were added, then an OEM E46 M3 BMW Alcantara shift boot snapped into the OEM center console from above. This is the "pretty" shift boot to cover up the race parts underneath.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zGrx6xn/0/d99f0af0/L/DSCN0405-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-zGrx6xn/0/d99f0af0/X3/DSCN0405-X3.jpg)

That's the finalized shifter sitting in the OEM center console, above. Took a bit of work to get it all to line up but the shift feel is great and the McLeod unit has adjustable shift stops to prevent over-engagement. If the shift lever length isn't comfortable for the owner we will buy or make another arm, and the same goes for the knob.

FUEL RAILS BUILT & INJECTORS INSTALLED, MSD MODIFIED

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Cq358h7/0/d04fe093/L/B61G9676-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Cq358h7/0/d04fe093/X3/B61G9676-X3.jpg)

The MSD Atomic intake manifold is one ugly cuss of a cast Nylon unit, bit it outflows the other "OEM height" intakes for big displacement LS engines (including the FAST), and it will fit under the stock height hood. One other oddity is that the shape does not clear any aftermarket fuel rails. From anyone. We wouldn't consider using an OEM fuel rail on a build like this - both from a performance and aesthetics stand point. the OEM fuel system is made for a return-less style routing, which is another "Hard Pass".

https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-kJg8tXf/0/de5f0b30/S/IMG_9963-S.jpg (https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-kJg8tXf/0/de5f0b30/X3/IMG_9963-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-M63k9Sm/0/c2e83b59/S/PB271189-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-M63k9Sm/0/c2e83b59/X3/PB271189-X3.jpg)

After wasting a good bit of time reaching out to companies who sell custom fuel rails (none of which had tackled the MSD yet) we settled on the same Holley extruded rails we use on a lot of LS builds. Ryan marked them for clearance around the various lumps and bumps in the MSD Atomic and handed them to Tim, who chucked these up in our CNC mill and got to work...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3jBGC8j/0/3274b645/L/B61G0537-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-3jBGC8j/0/3274b645/X3/B61G0537-X3.jpg)

Instead of mapping the cut-outs and programming the job in CAM software, then cutting each rail in CNC mode, Tim used the Digital Read Out and manually moved the cutter to clear away metal where Ryan marked. Each rail was milled in an area that isn't critical for strength or fluid / pressure containment, as shown above. It was a bit of a pain but with an end mill with a DRO you could do the same in about an hour.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-K8RckWM/0/0bc00ca4/S/DSCN0508-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-K8RckWM/0/0bc00ca4/X3/DSCN0508-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nqCjqCj/0/71e083b4/S/DSCN0507-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nqCjqCj/0/71e083b4/X3/DSCN0507-X3.jpg)

The images above show the rails mocked up with some injectors, which puts the rails at their final height. Ryan then built custom brackets to attach the rails to threaded bossed in the intake manifold at those heights. The top right pic shows clearance around some of the weirdly shaped humps in the MSD Atomic. Now about those injectors...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sQQDt5M/0/a3171394/L/B61G0302-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sQQDt5M/0/a3171394/X3/B61G0302-X3.jpg)

The tuner we are working with to build the Motec M150 ECU and engine harness wanted us to use the Bosch Motorsports based Injector Dynamics set. But at $1000/set it was making my eye twitch! Even if it is not my money, I still try to look out for our client's budget. We investigated some other brands, made some calls, and then I went with DeatschWerks. Their 16U-00-0065-8 injectors flow 65 lb/hr (700 cc @ 3 bar), have an EV14 plug, LS3/LS7 injector height, and also use Bosch Motorsports parts. They cost about half as much as the IDs but are built with the same housings and coils. I liked them so much we became a dealer and you will see more of these on our other builds, like my C6 Z06 (aka: #Rampage).

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-V937T3D/0/206aabda/L/DSCN0758-L.jpg

Of course there is a frenzy that stirs up around certain sacred items and beloved brands, and when you ask "what injectors should I use" online it damn near breaks the internet. DW has the same Motec flow data for the tuner to use for EFI tuning, and if they work, they work. I don't get the hate, but I suppose I do the same thing around certain shock brands, so what can I say? #KoniTriggered

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-jc4d2g5/0/d4850088/S/PC203480-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-jc4d2g5/0/d4850088/X3/PC203480-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8gBHsRS/0/559af842/S/DSCN0725-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8gBHsRS/0/559af842/X3/DSCN0725-X3.jpg)

Before the MSD Atomic intake was final installed the hole for the MAP sensor had to be drilled. There are a couple of optional locations cast into the upper housing for this sensor (even the old LS1 EGR location), with a threaded boss for each. Ryan picked the one at the "back" of the intake, which will be at the front of this engine bay, and fitted the sensor in place.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-p2njC4X/0/cc3131fb/L/DSCN0986-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-p2njC4X/0/cc3131fb/X3/DSCN0986-X3.jpg)

This MAP sensor location will connect to the Motec harness being built for this car.

VALVE COVERS, COILS AND PLUG WIRES

Not a lot of high tech here. Seriously, there's no need to spend thousands on coils or plug wires for any LS or LT V8. Just use good, proven brands that fit your engine's specifics. This ignition system is light years ahead of what the OEMs used even in the early 1990s.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-M5DKDKX/0/7136744b/S/DSC_9577-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-M5DKDKX/0/7136744b/X3/DSC_9577-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PhTb8d4/0/8fc5bb9c/S/DSC_9578-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PhTb8d4/0/8fc5bb9c/X3/DSC_9578-X3.jpg)

When it came to coils I wasn't sure it was even worth using something other than stock replacement units (of which there are 5 distinctly different styles (https://photos.smugmug.com/Customer-Cars/Justin-Glass-E36-M3-LS1/i-HgQx8nr/0/d2c2586d/L/LS-ignition-coils-L.jpg) for LS engines), which can be bought for as little as $30/each. With EIGHT coils - one for each plug - there isn't a lot of stress on the ignition coil. These have a long time to saturate with high voltage before it fires it's one spark plug every two rotations. For this build I went a little further and bought MSD branded replacement coils, which were not that much more. We need D&E points for Optima, and "favorably branded" parts don't hurt.

https://photos.smugmug.com/Customer-Cars/Justin-Glass-E36-M3-LS1/i-9NJcFL8/0/d5c8c87c/S/DSC_3002-S.jpg (https://photos.smugmug.com/Customer-Cars/Justin-Glass-E36-M3-LS1/i-9NJcFL8/0/d5c8c87c/X3/DSC_3002-X3.jpg) https://photos.smugmug.com/Customer-Cars/Justin-Glass-E36-M3-LS1/i-9qwmDMv/0/c8ab1ab3/S/DSC_3053-S.jpg (https://photos.smugmug.com/Customer-Cars/Justin-Glass-E36-M3-LS1/i-9qwmDMv/0/c8ab1ab3/X3/DSC_3053-X3.jpg)

We have had really good experiences with Holley Group parts, and MSD is a part of that. Naturally we went with Holley valve covers, too (polished aluminum units slightly taller than stock). These have integral mounts for one of the LS coil shapes, so we don't have to use the ugly black steel coil mounting brackets made for OEM valve covers. This engine bay needed a little bling.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hWgtn36/0/37618f7b/L/241-111-L.jpg

I had spec'd Holley valve covers out for another BMW LS swap a year earlier, but they didn't fit the E36 chassis they were going into. They went back in their box until we needed them for this E46 build - which has a 2" wider engine bay than the E36. We also picked up Taylor 409 series 10.9 mm plug wires and DEI heat sleeves.

continued below

Fair!
01-23-2018, 01:15 PM
continued from above

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dJVhm28/0/d09c3d92/L/DSCN0755-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dJVhm28/0/d09c3d92/X3/DSCN0755-X3.jpg)

The Taylor plug wires come in a variety of boot angles and colors, as do the DEI sleeves, but for this build we went with all black. The NGK plugs are now connected to the coils, which are mounted to the Holley valve covers for a nice, tidy look.

REMOTE COOLANT RESERVOIR

I never trust the itty bitty plastic reservoirs on BMW E46 coolant systems (I've had two fail on track in two different 330s!), but instead I like to see a larger, remote mounted reservoir set high in the engine bay with as much volume as possible. Usually that means at the back of the engine bay, opposite the brake master cylinder, which is the highest part of the engine compartment. That corner usually has plenty of room.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dmkwTCV/0/8a3a6e21/S/DSC_9600-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-dmkwTCV/0/8a3a6e21/X3/DSC_9600-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-TSR35zd/0/de0ed872/S/DSC_9623-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-TSR35zd/0/de0ed872/X3/DSC_9623-X3.jpg)

On this build of course we have one of the twin air filter boxes taking up that space, so I asked Ryan to utilize the space in the right front corner of the engine bay. He whipped up this custom reservoir out of cardboard mock-ups and turned it into an aluminum welded tank.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-qfc4z3f/0/e6bd41e5/S/DSC_9617-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-qfc4z3f/0/e6bd41e5/X3/DSC_9617-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-r2B4vCC/0/fb2c675e/S/DSC_9621-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-r2B4vCC/0/fb2c675e/X3/DSC_9621-X3.jpg)

If you look closely at the image above left you can see that it ties into some OEM bracketry in that corner, for a bolt-in application.

https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-KMK3GJS/0/6e35b2a1/S/IMG_9962-S.jpg (https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-KMK3GJS/0/6e35b2a1/X3/IMG_9962-X3.jpg) https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-FbNb2Jg/0/96ec622e/S/IMG_9961-S.jpg (https://photos.smugmug.com/Projects/Stewart-Whites-69-Pro-Touring/i-FbNb2Jg/0/96ec622e/X3/IMG_9961-X3.jpg)

Once we were happy with the shape and placement a few more items were ordered, including an aluminum weld-on radiator filler neck and some steam vent ports from TFS (made for AN lines). A number of aluminum weld-on AN bungs were also procured for lines that connect to the reservoir.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4gMpLSp/0/e377b72e/S/DSC_9631-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4gMpLSp/0/e377b72e/X3/DSC_9631-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-w7rPjWq/0/53a3e883/S/DSC_9632-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-w7rPjWq/0/53a3e883/X3/DSC_9632-X3.jpg)

You can see the finished reservoir above, with the filler neck and welded bungs for AN lines. We used a 16 psi, lever-style pressure release cap. If this cap isn't deemed pretty enough for D&E, we will find some billet doo-dad with some shiny colors.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-k4Dc4MK/0/b523e045/L/DSCN0728-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-k4Dc4MK/0/b523e045/X3/DSCN0728-X3.jpg)

The various coolant lines were later built to connect to the reservoir, steam lines, and heater core hoses to the Motorsports defroster mounted under the dash. I will show this in more detail later, but the cooling system is plumbed.

MAIN BATTERY KILL

One thing virtually all race cars are required to have is a main battery kill. If you see the "magic smoke" being released from your car's wiring (it only comes out once!) or if you have any type of racing crash / incident / fire, you are supposed to hit that button first! But gone are the days of the $25 electro-mechanical kill switches, which have a high failure rate and require high amp cables to be strung near the driver's switch. Even the solenoid relay style kill switches still have moving parts that can fail. Now there is something better.

https://photos.smugmug.com/Product-Pictures/Cartek-Motorsport-Electronics/i-Kvh33Xm/0/1c7ec744/L/cartek_gt_03RCrVmy-L.jpg

The solid state electronic "battery isolator" units from CAR TEK out of the UK are a slick, safe, and FIA approved solution. This page (http://www.cartekmotorsport.com/battery_isolators.html) shows the evolution of the kill switch. We saw how much US suppliers were marking these up so we purchased a bunch of these and became a dealer. We have used them in the past and will be putting these on everything...

https://photos.smugmug.com/Product-Pictures/Cartek-Motorsport-Electronics/i-H6mqv4g/1/fd25d14a/S/B61G0933-S.jpg (https://photos.smugmug.com/Product-Pictures/Cartek-Motorsport-Electronics/i-H6mqv4g/1/fd25d14a/X3/B61G0933-X3.jpg) https://photos.smugmug.com/Product-Pictures/Cartek-Motorsport-Electronics/i-dgMK8zW/1/b9f364d2/S/B61G0941-S.jpg (https://photos.smugmug.com/Product-Pictures/Cartek-Motorsport-Electronics/i-dgMK8zW/1/b9f364d2/X3/B61G0941-X3.jpg)

There are two main models from CARTEK. The "GT" model shown above kills the engine by taking in a fixed 12v input and sending a 12v output that would power your Ignition or ECU. When the negative side of the battery has been disconnected it will also cut the 12v output powering your Ignition or ECU. This will kill the engine. Designed for cars with Standard ECU’s or Historic Race cars. These can be wired with one or two remote kill switches, which have integral LED lights inside the button.

https://photos.smugmug.com/Product-Pictures/Cartek-Motorsport-Electronics/i-dXTKS2s/0/19cdf6b5/S/Untitled-1-S.jpg (https://photos.smugmug.com/Product-Pictures/Cartek-Motorsport-Electronics/i-dXTKS2s/0/19cdf6b5/X3/Untitled-1-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-BbTMmMT/0/281dc6bb/S/DSCN0378-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-BbTMmMT/0/281dc6bb/X3/DSCN0378-X3.jpg)

The "XR" unit we chose for this build is made to trigger a Motorsports ECU (like the Motec M150 we are using) or PDU. The "XR" unit is newer and does not have a power input or power output. Instead it sends a signal which is wired to either a Power Distribution Module or Motorsport ECU that has an ignition switch signal input. The ECU or PDU will then shut down when it sees this signal - which then kills the engine. The XR also features a 0.5 sec time delay between transmitting the engine kill signal and disconnecting the battery, allowing the ECU time to perform a shutdown sequence before electrical power is lost.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-s98K9F6/0/d7f51640/S/DSCN0991-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-s98K9F6/0/d7f51640/L/DSCN0991-L.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DGnBWTL/0/89613783/S/PB141004-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DGnBWTL/0/89613783/X3/PB141004-X3.jpg)

It was a relatively easy hookup, with the XR unit placed in the trunk area on a panel Ryan built near the Odyssey PC80 battery. Two kill switches were added with one mounted on the dash and the other out the driver's side window area, so a corner worker could disable the power if the driver was incapacitated.

TWIN FIRE SYSTEMS INSTALLED

This car is being built with serious safety in mind, to match the serious performance it will be capable of. To take it to the next level we built this car with two separate fire systems. And each system has two cables - for multiple locations.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LtBWtv5/0/ddcf2b88/S/DSCN0980-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LtBWtv5/0/ddcf2b88/X3/DSCN0980-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pjc86J9/0/e7f2faec/S/DSCN0978-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-pjc86J9/0/e7f2faec/X3/DSCN0978-X3.jpg)

One Aqueous Foam (AFF) fire suppression system is plumbed for the engine bay, where most of the fire situations break out on a race car. If there is evidence of smoke from underhood and the driver has the right mindset and training he can pull that release handle (only) and snuff out the fire without filling the passenger compartment with foam.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-97VQpHL/0/1b48b968/S/PB141018-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-97VQpHL/0/1b48b968/X3/PB141018-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Tk7X2VQ/0/ae9ca76c/S/B61G0479-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Tk7X2VQ/0/ae9ca76c/X3/B61G0479-X3.jpg)

If something is on fire in the cabin the driver can grab that handle - or both - as he is bailing out. We have dual pulls for each bottle, too... with a pair for each system on the center of the dash (driver) and a pair outside the driver's window (corner worker, or driver after he bails out!)

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sdTkZtH/0/241671e2/S/DSCN0992-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sdTkZtH/0/241671e2/X3/DSCN0992-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DQtCSrn/0/2ccc8856/S/DSCN0993-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DQtCSrn/0/2ccc8856/L/DSCN0993-L.jpg)

These were cabled with the included cables that came with each fire system from Lifeline. The secondary cables were purchased from a local bike shop and added to each pull handle on the bottles. Each pull will be marked clearly and boldly, but if in doubt - pull 'em both! I will cover these again when they are plumbed to show the nozzle detail in my next post.

FUEL CELL ARRIVES & INSTALLED, FUEL SYSTEM BUILT

One more safety aspect is finally wrapped up, and boy this one was a major task! You saw the creation of the fuel cell enclosure and then the firewall structure around that, but when we sent the drawing off to be quoted by "the companies everyone uses" we had a heart attack with their quotes.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Bh78xf5/0/23426024/S/B61G0485-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Bh78xf5/0/23426024/X3/B61G0485-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-X8tpWz4/0/7cd663b1/S/DSCN0399-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-X8tpWz4/0/7cd663b1/X3/DSCN0399-X3.jpg)

A few years ago we found Harmon Fuel Cells. They had some BMW cells that we thought we could use in our standard swap cars, but this one was going to be custom. So we sent them the drawings and enclosure to quote. Their ballistic kevlar FIA approved fuel cell with an integral surge tank and twin Walbro 450 pumps was HALF the cost of the "name brand" fuel cell. This was an eye opener!

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-m4jC6fj/0/6480e640/S/IMG_9527-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-m4jC6fj/0/6480e640/X3/IMG_9527-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hhxpQVq/0/49fa5365/S/B61G0482-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-hhxpQVq/0/49fa5365/X3/B61G0482-X3.jpg)

The reasons we got for the high quote were "time and materials" to make the custom cell, but Harmon seemed to use the same materials and got it done for less, with all of the right FIA markings. I'm now a fan of this brand, especially for custom cells. The twin pump sump looks good and should keep this engine fed with fuel down to the last drop.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GWbQDjJ/0/9dd13e58/L/DSCN0979-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GWbQDjJ/0/9dd13e58/X3/DSCN0979-X3.jpg)

The fuel cell is now mounted in the car's back seat, the lower section of the firewall enclosure is mounted, and Ryan is plumbing the fuel system from the cell to the engine bay.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-xWNRgH9/0/3c5d3aa8/S/DSCN0983-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-xWNRgH9/0/3c5d3aa8/X3/DSCN0983-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-v2B9zbt/0/77c3e46a/S/DSCN0982-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-v2B9zbt/0/77c3e46a/X3/DSCN0982-X3.jpg)

The AN braided lines switch to aluminum tubing under the car, to protect them from fire / cutting / off road adventures. The feed line is a -8 and the return is -6.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-CDbdzfj/0/d959e3cd/S/P1173640-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-CDbdzfj/0/d959e3cd/X3/P1173640-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-84hngvv/0/a9a9c872/S/DSCN0984-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-84hngvv/0/a9a9c872/X3/DSCN0984-X3.jpg)

Most of the fuel system is completed when I write this in January, with just a few items left to plumb this week.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7fQqvH9/0/f4d13163/L/P1173639-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7fQqvH9/0/f4d13163/X3/P1173639-X3.jpg)

One of the craziest parts of the fuel system is this Injector Dynamics F750 fuel filter (http://injectordynamics.com/id-f750-fuel-filter/) with optional pressure and temperature sender. It has pressure differential meter on board, drain, integral mount, it is all made from 100% CNC machined aluminum. The point that really matters: it has a replaceable filter element.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Q9njnhM/0/ff8191fe/S/DSCN0916-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Q9njnhM/0/ff8191fe/X3/DSCN0916-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NhtkLtg/0/d32de235/S/DSCN0917-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-NhtkLtg/0/d32de235/X3/DSCN0917-X3.jpg)

This was something G-SPEED insisted on for use with the Motec and cost a staggering $550. For a fuel filter. But these sensors are what they wanted for pressure and temp signals, so on it went. When you see it fist hand, the fitted foam box and the jewel like fit and finish, you can see where the cost comes in.

HYDRAULIC PARKING BRAKE INSTALLED

The OEM rear disc brakes on most modern cars use an integral drum brake inside the "hat" of the 1-piece cast iron rotor. The drum is actuated by the parking brake lever and locks the wheel when parked.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-GdGF9bG/0/0ae4f047/L/B61G2069-L.jpg

Well the Powerbrake 350mm 4piston rear brake uses a 2-piece rotor with an aluminum hat. Like the Stoptech Trophy and almost all other Motorsports brake kits they do not have a provision for a parking brake. But for Optima use this car needs one. We did some research...

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rXtL682/0/d40f2e15/S/DSC_9664-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-rXtL682/0/d40f2e15/X3/DSC_9664-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-32Pp7Ls/0/1622a65f/S/DSC_9677-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-32Pp7Ls/0/1622a65f/X3/DSC_9677-X3.jpg)

We found that obp Motorsport out of the UK makes a hydraulic, stand-alone parking brake handle, mostly used in the drifting world. These also have a lockable setting for use as a hydraulic parking brake. I ordered the one Ryan spec'd and ... they shipped the wrong style, above, which is made for drifting. So now I own that one.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8X6LKtj/0/a6de6900/S/DSCN0429-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8X6LKtj/0/a6de6900/X3/DSCN0429-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DcmBPnT/0/21f1b484/S/DSCN0428-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DcmBPnT/0/21f1b484/X3/DSCN0428-X3.jpg)

I re-ordered the same part number and the second time they sent the right style, which can be configured to allow the handle to lie flat - like the stock unit. Stop the car, pull up the handle, engage the lock, and you have locked the rear brakes for parking.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-nSJXr7t/0/537868a7/S/DSCN0526-S.jpg https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-876M6LM/0/5aaa355b/S/DSCN0631-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-876M6LM/0/5aaa355b/L/DSCN0631-L.jpg)

Ryan built a bracket, mounted the E46 "console delete" center console, built a cover for the cup holders, and it covers the obp handle nicely. We will show the plumbing of this in a future post.

1-7/8" LONG TUBE HEADERS COMPLETED

These custom headers should have been done months earlier but we had a series of delays on parts, tools, and equipment that is too long to list.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-KH6Tvk8/0/e9caaaac/S/DSCN0753-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-KH6Tvk8/0/e9caaaac/X3/DSCN0753-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9KZ4s8v/0/5dab9a76/S/DSCN0797-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-9KZ4s8v/0/5dab9a76/X3/DSCN0797-X3.jpg)

After the ICE Engine Works 1-7/8" header modeling kit arrived in November and then the Argon flow meter regulator arrived in December the last few bends could be finished.

continued below

Fair!
01-23-2018, 01:16 PM
continued from above

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DTBw7KD/0/e6764ae9/S/DSCN0798-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-DTBw7KD/0/e6764ae9/X3/DSCN0798-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-vjSQNSQ/0/218a27c1/S/DSCN0801-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-vjSQNSQ/0/218a27c1/X3/DSCN0801-X3.jpg)

Then each tube could be sealed off, back purged with Argon, and fully seam welded. Once each tube was leak free it was then welded into the flanges and collectors.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-XCzZ9Fj/0/74f68c76/L/DSCN0813-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-XCzZ9Fj/0/74f68c76/X3/DSCN0813-X3.jpg)

Ryan even installed the "cones" inside the merge collectors, for that last little bit of flow. The headers were quickly installed shortly after being final welded, so I didn't get the "glamor shots" they deserved. But no matter - they are done!

DRIVESHAFT BUILT & INSTALLED

We measured for a custom driveshaft to fit this E46 with a T56 Magnum and the 8.8" diff housing. When we went to install it, we found we had left the factory brackets for the 2-piece BMW propshaft's center bearing and they were in the way of the fat 3" diameter aluminum driveshaft.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-XZpQb8L/0/47b8fc88/S/B61G0776-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-XZpQb8L/0/47b8fc88/X3/B61G0776-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-qPgsNp3/0/933bf593/S/B61G0784-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-qPgsNp3/0/933bf593/X3/B61G0784-X3.jpg)

A little spot weld drilling and some cutting removed the offending brackets, which we didn't need in any case. Much bigger diameter driveshaft stuffed up as high as possible to give exhaust clearance in this tunnel.


https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Sw5ZqQn/0/e10297dc/S/DSCN0821-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-Sw5ZqQn/0/e10297dc/X3/DSCN0821-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VSphXms/0/b6fece96/S/DSCN0830-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-VSphXms/0/b6fece96/X3/DSCN0830-X3.jpg)

With the newly acquired input flange for the pinion added (per our driveshaft company's recommendation for the torque this unit will see) the driveshaft was bolted in place. One step closer to moving under its own power.

OIL LINES BEING BUILT

With an external, 4-stage dry sump oil pump, remote oil tank, twin oil coolers, and a breather tank this car will need a lot of oil lines run over the course of weeks. Since we are already a dealer for Fragola, and to save some time, we did not farm this plumbing work out like we sometimes do.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gXcbkMm/0/3e2221f0/S/DSCN0782-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-gXcbkMm/0/3e2221f0/X3/DSCN0782-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wLZQvgp/0/4287844a/S/DSCN1017-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-wLZQvgp/0/4287844a/X3/DSCN1017-X3.jpg)

Ryan designed an oil system routing and made us a parts list, then we ordered a boat load of AN fittings, hoses ends, and hose. After various components were mounted the hoses were built one by one, tested, and installed.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-W7CP4wX/0/cc119e0a/L/DSCN0815-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-W7CP4wX/0/cc119e0a/X3/DSCN0815-X3.jpg)

Instead of boring you with a lot of step by step pictures of hoses being made, let's move on.

CHASSIS WIRING

Speaking of exciting, let's look at a bunch of pictures of custom chassis wiring! I have dozens!

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4hJrfXb/0/f374cfa8/L/PB141006-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-4hJrfXb/0/f374cfa8/X3/PB141006-X3.jpg)

I'm kidding, of course. Not many people like working on automotive wiring, much less building it, or watching it being built. But we do have a lot of pictures of this progress to show the customer as this work stretched out for a bit.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7kKSTGB/0/aa73ca52/S/DSCN0989-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-7kKSTGB/0/aa73ca52/X3/DSCN0989-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-C8K8Cj8/0/c2157dec/S/DSCN0677-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-C8K8Cj8/0/c2157dec/X3/DSCN0677-X3.jpg)

But seriously though, the work done in this area by Ryan was over the top. What started with a Painless 26 circuit harness has turned into a work of art.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RqZMrxC/0/56ae0bca/S/DSCN0977-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RqZMrxC/0/56ae0bca/X3/DSCN0977-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5xPBjFJ/0/a957615f/S/PB201062-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-5xPBjFJ/0/a957615f/X3/PB201062-X3.jpg)

The main wiring panel was built onto a false floor aluminum panel in the passenger foot well. All of this is hidden under another panel, shown above right, for a clean look - and to keep feet away from wires and components.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bLkX55z/0/600d09b2/S/DSCN0994-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-bLkX55z/0/600d09b2/X3/DSCN0994-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-FHZLV2H/0/9c76df07/S/DSCN0996-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-FHZLV2H/0/9c76df07/X3/DSCN0996-X3.jpg)

Lots of components are hidden under the dash or elsewhere and everything is noted in detailed wiring diagrams, kept within a binder. We are using Deutsch Connectors and pins for every connection, except for a handful of OEM connectors. Ryan was ringing out circuits today, bumping windows and lights with a tester, and the chassis wiring is almost complete.

BRAKE INLET DUCTS BUILT

The front end on this car was made from a hybrid 1M / E46 bumper cover made by Duraflex in a fiberglass-like composite.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LQ3F56H/0/d5828d29/L/B61G9867-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-LQ3F56H/0/d5828d29/X3/B61G9867-X3.jpg)

Some might not like the look now but once the front wheel fairings are built and the splitter installed I think it will make more sense. It fit the look the owner was going for, but didn't really have a great location for front brake inlets.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-98Mt6zM/0/699aa368/S/P5250697-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-98Mt6zM/0/699aa368/X3/P5250697-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-HN7DZwf/0/6cad406c/S/P1113615-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-HN7DZwf/0/6cad406c/X3/P1113615-X3.jpg)

Early on in the project Jason worked with Ryan when he was mounting the bumper cover to show him where we wanted to pull brake cooling air from - a high pressure section of the lower grill area. The two outer openings were then utilized for twin oil coolers, as shown above left. The brake ducts were recently built and fitted to the triangular sections shown above right.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8xrqGg8/0/2f41f689/S/P1113600-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-8xrqGg8/0/2f41f689/X3/P1113600-X3.jpg) https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sjCJ6Mn/0/e8dde1d9/S/DSCN1023-S.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-sjCJ6Mn/0/e8dde1d9/X3/DSCN1023-X3.jpg)

Sometimes you get lucky and the OEMs make a nice, tapered funnel that necks down to a 3" or 4" round section you can slip a brake cooling hose over, but not this time. We decided on 4" cooling to deal with the speeds and brake heat load this car should be capable of. Ryan made the outer panel then transitioned this to a 4" round aluminum tube for the hose to fit over.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fmX8qv2/0/2ca229b6/L/B61G0871_2-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-fmX8qv2/0/2ca229b6/X3/B61G0871_2-X3.jpg)

He makes it look easy but there was some time and skill that went into these inlets. We will add the 4" hose after the final oil plumbing is completed, but room was left to clear all of that and for the route to the front wheels. The brake backing plates were made months earlier.

WHAT'S NEXT?

Whew, that was longer than I thought it would be! What's next? Well last week Corey and Louis from G-SPEED stopped by to measure the engine bay for their custom Motorsports engine harness they are building to fit a Motec M150 ECU.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-j8qMWMQ/0/39e79065/L/B61G0979-L.jpg

With this mapped out they are building the harness now for delivery soon. The last bits of plumbing and chassis wiring will be tidied up and then Ryan will move to the front splitter, wheel fairings, and rear diffuser.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-RbTQK4V/0/30f031f8/S/DSCN0963-S.jpg https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-SS2PrWV/0/a50ea625/S/DSCN1024-S.jpg

And the exhaust system is already being built as well. Gonna sound good, and will exit through the diffuser.

https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PGp2crg/0/49f975f8/L/B61G1085-L.jpg (https://photos.smugmug.com/Projects/Chainsaw-BMW-E46-M3-LSx/i-PGp2crg/0/49f975f8/X3/B61G1085-X3.jpg)

More soon!

Stingray
01-24-2018, 11:24 AM
Glad to see you using DW. Also, if this was my car, I wouldn't want to install a "Shit Boot"

Fair!
01-24-2018, 11:38 AM
Glad to see you using DW. Also, if this was my car, I wouldn't want to install a "Shit Boot"

Good catch... It should have been Shift House. :lol: (fixed)

Speed Demon
05-10-2018, 11:56 AM
Fantastic build. Thanks for posting all the details and pictures. It's certainly given me some ideas.

Question, I bought one of your very early E36 LS1 kits, possibly 1 of the first 10. I'm running a dry sump LS2 engine now in the E36. I'm looking to improve the reliability reduce weight of all the oil plumbing.

What are the specs on hard line you are using for the dry sump in this build?
Mainly I'm interesting in the tubing spec, material wall thickness, and what type of connection fitting are you mating to the tube.

Can you flare these tubes to JIC37 degree with a tube nut? Or are you running a and ORB or ORF type end fitting?

Are you able to bend the tubes yourself? If so what type tubing bender do you use?

If would great if the tubing is something that can be bent and fittings attached without having to go to a hydraulic shop. Of course I understand some tools and equipment is needed.

Thanks!
Brandon