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07-01-2014, 11:23 AM | #81 |
S5, Sport Off, DSC M-track
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Hi,
Yes, Bending and Shear are two different load / Stress factors, but the 'bolt head' that holds the subframe to its fixing point is approx 60mm down from where the bolt is secured [depth of subframe bush] The original bolt is not held at the top but only by a threaded section in the tube just above the surface of the lower skin where the bush/subframe is clamped up to. Hence when the subframe starts moving around [vibration initially] via lateral forces due to the elongation in the bush alloy insert, this then side ways motion is what is causing the bolt/fixing to start tearing via a pivoting pendulum motion at the sheet metal, which over time induces the stress cracks. Hence, one force shear, when transmitted via the pivoting penduliam actions of the bolt is then causing tear, ie the sheet fatigue. If the main subframe fixing Bolts were fixed at the top also and the bolt had a alloy over tube acting as the dowel, then the shear load on its own is unable move the bolt which is then not only secured in two places, top and bottom, to prevent pivotal pendulum type movement but it also has a much larger surface of clamp which also assist in deflecting load forces via the alloy spacer around the bolt, being absorbed correctly into the bush. The combnation of these additional factors would mean that the M12 H/T bolt is then performing in true shear loads only, and any load deflection would then be loaded into the alloy 'dowel' and absorbed by the bush as it was originally designed to do. Its almost be almost identical to what Mercedes did on the 190 rear subframe and while many Merc 190 rear subframe bushes have been replaced [proves it works well] I have never herad of or seen a Merc 190 subframe ripping out its subframe chassis mounts or cause any metal fatigue or tears other than age corrosion. Regards, The Gorilla. |
07-01-2014, 06:43 PM | #82 | ||
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Thanks Gorilla, good pics.
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09-01-2014, 10:21 AM | #83 |
S5, Sport On, DSC M-track
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Personally I feel the official epoxy fix is sound. It has been used in the past by OEM manufacturers for frame strengthening (Ford, Audi to name a few), in addition it was an official fix for F3 for suspension pickup points. The product is designed specifically just for this purpose (cavity filling, bonding of two plane surfaces and structural strengthening for increased crash rating).
I have the epoxy injected in my car as a preventative (no cracks) and I can tell you for a fact that the difference in rigidity was immediate and noticeable post epoxy. Even if it isn't a full fix it doesn't bother me ... nothing lasts forever. Plus so long as you don't do the front points you can still put a cage in with subframe pick up (so when mine cracks I'll either cage it or part it out). The epoxy used has the following technical specs for those more technically minded: Compressive strength: 15–20 MPa E-Modulus: 700 ±50 MPa Poisson’s ratio: 0,22–0,26 Volume change: 0–30 % (depending on the curing conditions/volume/geometry) Water absorption: < 0,5 % weight gain Test conditions: 24 hours at 98 % humidity and 40 °C In service temperature rang -40 °C to 90°C Short exposure (up to 1h): 110°C And if you are in further doubt about the epoxy ... consider this. We have a factory E46 320i WTCC car here locally that was raced extensively (and did many sprint and 6 hour endurance races regularly). The floor finally gave up (and believe it or not only when the car was in NZ not when it raced in Germany) as the cage in those never tied the rear subframe into the roll cage ... a new floor was welded in and the official epoxy injected. It still races today and as far as I am aware the new floor is sound with no cracks. As for talks about moisture and rust from the epoxy ... seriously learn a bit of chemistry people. If that was the case then expect all our carbon roof ridges to all rust to nothingness soon - the roof is bonded to bare metal with guess what ... Epoxy!!! Last edited by NZ_M3; 09-01-2014 at 10:45 AM. |
09-01-2014, 12:15 PM | #84 |
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Hi,
Quote[ ''As for talks about moisture and rust from the epoxy ... seriously learn a bit of chemistry people. If that was the case then expect all our carbon roof ridges to all rust to nothingness soon - the roof is bonded to bare metal with guess what ... Epoxy!!! The steel lip that the roof is bonded to is not only painted but it has been sprayed with hot galv prior to paint. Further when the roof is bonded there is no void between the steel lip and the carbon edge, hence no moisture can form via condensation. That is why the factory Carbon roofs have 4 large fixing bolts that are tightened after the resin is applied to the lip, so as the pull the roof down evenly and remove any voids, and also as a secondary fixing. If you have ever taken one off then you would know this, its not a bare unpainted lip as you suggest, its exactly the same paint process as the rest of the A/B/C pillars and shell for that fact.. However if you belive that an external resin injection into a void that does not fully seal up that void [boot floor skins] and has been previously welded will not cause condensation on the inner sections which will cause roost then you've not seen inside many chassis sections. Its nothing to do with chemistry, its the plan fact that your unable to correctly treat welded surfaces inside voids such as chassis or multi layer skin areas. Regards, The Gorilla. |
09-01-2014, 10:59 PM | #85 | |||
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You'd also know that the two rear mounting points has sufficient access points from both the bottom and top for rust proofing to the applied after welding. (I concur much harder with the front points - hence why no epoxy is recommended to be injected in those areas) I will however concede that when you weld plates to such thin gauge sheet metal, you've sufficiently changed the property of it that no matter how many layers of sealant or primer you slap on there it'll rust eventually. I however don't agree that the epoxy somehow accelerates that process any quicker or how a car without any repair welds but with just epoxy injection will now rust faster than a car without the epoxy injection. Last edited by NZ_M3; 09-01-2014 at 11:02 PM. |
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10-01-2014, 02:15 PM | #86 |
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I also stand by the epoxy fill as the most sensible solution. I've seen profesional FEM studies and crash tests done on dual skin B pillars with and without structural foam bridging the skins. The epoxy structure was nothing short of amazing, and retained adhesion, keeping the skins at an even gap from one and other as the structure was loaded to failure. The OEM in question ended up using this to get 5 star NCAP rating in side impact. (it was some time ago, when this was a big deal to have). This gives me confidence that the epoxy injection in out floors will remain strongly bonded for the life of the car, genlty distrubuting all those axial and sheer lug loads evenly into the two skins over a much larger area than any mechanical bolt / dowel solution ever will.
My only concern is corrosion, but only from the point of view that we have to rely on a BMW bodyshop taking due car in sealing all bare metal from welds etc adequatly, which as Tom said, is in theory possible. If they havn't, well that sux but there is a lifetime warranty on workmanship. |
10-01-2014, 03:29 PM | #87 |
S5 - Full Throttle
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I can't think where I saw the thread but someone I think in America was using a bonding non weld technique to fix reinforced plates to boot floor so no issue with rust on inner skin of cavity.
This seems a very good idea as these epoxy glue chemical weld systems are really strong,what do you think guys. |
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