Discussion
Right folks, I seem to have backed myself into a bit of a corner. I'm working on a project with an Audi V8 and mating it to a Ford T5 gearbox, so far I have engine and flexplate/starter ring, gearbox, starter and custom bellhousing. The bellhousing was primarily designed for the VAG engines with a smaller cylinder count that use the 228mm diameter clutch. I had hoped to use the 240mm clutch from an S8 but it would appear that this will foul the bellhousing.
Option 2 is to use a 10bolt 228mm dia flywheel, however this means I need a different starter and it appears that solid (ie not dual mass) 10bolt 228mm flywheels are rare as hens teeth (unless someone can tell me otherwise)
So....
Option 3
Retain the original ring gear (that does fit in the bellhousing) make a custom 6061T6 aluminium flywheel with a case hardened 1018 steel insert using an AP/Tilton/Alcon et al 7.25" clutch pack,
What do you reckon? Sensible idea? I'd design in and run a decent bit of FEA on it, I've access to a full machine shop and such like so that's not a problem, the bell housing is a certified scatter shield so it it does go wrong the risk of injury is reduced....what could possibly go wrong???
Regards
Iain
Option 2 is to use a 10bolt 228mm dia flywheel, however this means I need a different starter and it appears that solid (ie not dual mass) 10bolt 228mm flywheels are rare as hens teeth (unless someone can tell me otherwise)
So....
Option 3
Retain the original ring gear (that does fit in the bellhousing) make a custom 6061T6 aluminium flywheel with a case hardened 1018 steel insert using an AP/Tilton/Alcon et al 7.25" clutch pack,
What do you reckon? Sensible idea? I'd design in and run a decent bit of FEA on it, I've access to a full machine shop and such like so that's not a problem, the bell housing is a certified scatter shield so it it does go wrong the risk of injury is reduced....what could possibly go wrong???
Regards
Iain
Not much to a flywheel, really. I've just had something similar done for my Alfa-Honda conversion. The issue I had was that the engine is externally balanced, (the flywheel has to be out of balance), so I had to get the whole assembly balanced up, but I doubt a v8 would have that problem.
I seriously wouldn't bother with an alluminium one. Remember the difference between "mass" and "rotational inertia" is all about where the material is positioned relative to the centre of rotation. using a high strength material like steel allows you to use thinner sections to support the CF loads where you don't want to have material (due to it not adding much inertia, but still adding mass!).
A well designed steel flywheel, with properly calculated / stressed sections is the ideal
A well designed steel flywheel, with properly calculated / stressed sections is the ideal
Max_Torque said:
I seriously wouldn't bother with an alluminium one. Remember the difference between "mass" and "rotational inertia" is all about where the material is positioned relative to the centre of rotation. using a high strength material like steel allows you to use thinner sections to support the CF loads where you don't want to have material (due to it not adding much inertia, but still adding mass!).
A well designed steel flywheel, with properly calculated / stressed sections is the ideal
As high strength aluminium alloy like HE15 has about half the tensile strength of average flywheel steels but only about 1/3 the density I would say the opposite. You can make the flywheel twice the section thickness of a steel one and still save mass and inertia. Obviously very high tensile steels could be used but the cost would be extortionate.A well designed steel flywheel, with properly calculated / stressed sections is the ideal
Pumaracing said:
Max_Torque said:
I seriously wouldn't bother with an alluminium one. Remember the difference between "mass" and "rotational inertia" is all about where the material is positioned relative to the centre of rotation. using a high strength material like steel allows you to use thinner sections to support the CF loads where you don't want to have material (due to it not adding much inertia, but still adding mass!).
A well designed steel flywheel, with properly calculated / stressed sections is the ideal
As high strength aluminium alloy like HE15 has about half the tensile strength of average flywheel steels but only about 1/3 the density I would say the opposite. You can make the flywheel twice the section thickness of a steel one and still save mass and inertia. Obviously very high tensile steels could be used but the cost would be extortionate.A well designed steel flywheel, with properly calculated / stressed sections is the ideal
Finally, long term effects like creep and work hardening make ally flywheels a little bit more tricky that a steel one. Of course, what you really want is a Ti one ;-)
CrashTD said:
A vr6 flywheel should not be hard to find if that's what your after. There is one on ebay at the minute.
This one? http://www.ebay.co.uk/itm/G60-VR6-clutch-flywheel-...Thats a G60 thats only a 6-bolt effort
Regards
Iain
http://www.ebay.co.uk/itm/VW-Golf-mk1-2-3-VR6-02A-...
Comes with a free engine too.
Failing that try Sanburn Autos in Coventry or Stephens VW Dismantles in Essex. I would confidently say that finding a flywheel off a VR6 is easier and cheaper than any custom job.
Comes with a free engine too.
Failing that try Sanburn Autos in Coventry or Stephens VW Dismantles in Essex. I would confidently say that finding a flywheel off a VR6 is easier and cheaper than any custom job.
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