Carbon gearbox anyone?
Discussion
... Well not a totally carbon gearbox but an interesting idea for strengthening a stock gearbox. a 5mm 'sink' of carbon fiber!
http://www.lancerregister.com/showthread.php?t=315...
So Andy / Tony / Tux, when you going to get around to trying this?
http://www.lancerregister.com/showthread.php?t=315...
So Andy / Tony / Tux, when you going to get around to trying this?
we usually use the same system on M3 ,S2000 driveshaft with good results....
we have 2 options : full carbon wich is the lightest,and machining lightened with carbon wrap wich is the cheaper option....
speaking about gearbox I think will work in the same way ....I'm planning various carbon reinforcement on the nob or kevlar to protect chassis from temperatures
we have 2 options : full carbon wich is the lightest,and machining lightened with carbon wrap wich is the cheaper option....
speaking about gearbox I think will work in the same way ....I'm planning various carbon reinforcement on the nob or kevlar to protect chassis from temperatures
Er, what?
Unless you can layup the carbon weave direction to match the shaft loading direction, and close enough to the source of those loads, what you are doing is just making a "thicker" casing, that is no stiffer (where it actually matters) but is heavier and a lot of pfaff!
Much better to machine internal steel "cross shaft" plates to take the gear loads. And of course, once you make the casing stiffer, then you need to increase the shaft stiffness and the gear root strength to be able to "use" that extra strength.
Sorry, but what it adds up to from an engineering perspective is a total waste of time / money!
Unless you can layup the carbon weave direction to match the shaft loading direction, and close enough to the source of those loads, what you are doing is just making a "thicker" casing, that is no stiffer (where it actually matters) but is heavier and a lot of pfaff!
Much better to machine internal steel "cross shaft" plates to take the gear loads. And of course, once you make the casing stiffer, then you need to increase the shaft stiffness and the gear root strength to be able to "use" that extra strength.
Sorry, but what it adds up to from an engineering perspective is a total waste of time / money!
Max_Torque said:
Er, what?
Unless you can layup the carbon weave direction to match the shaft loading direction, and close enough to the source of those loads, what you are doing is just making a "thicker" casing, that is no stiffer (where it actually matters) but is heavier and a lot of pfaff!
Much better to machine internal steel "cross shaft" plates to take the gear loads. And of course, once you make the casing stiffer, then you need to increase the shaft stiffness and the gear root strength to be able to "use" that extra strength.
Sorry, but what it adds up to from an engineering perspective is a total waste of time / money!
I'm not entirely agree....ok,is not the final solution to make our boxes bulletproof,but in union with shoot peening and other reinfrcement of the gears,may helpUnless you can layup the carbon weave direction to match the shaft loading direction, and close enough to the source of those loads, what you are doing is just making a "thicker" casing, that is no stiffer (where it actually matters) but is heavier and a lot of pfaff!
Much better to machine internal steel "cross shaft" plates to take the gear loads. And of course, once you make the casing stiffer, then you need to increase the shaft stiffness and the gear root strength to be able to "use" that extra strength.
Sorry, but what it adds up to from an engineering perspective is a total waste of time / money!
I've worked on costruction of big turbines and turbo fans...and increase the thickness was the first step,whe the housing of the turbine or the transmission showed weakness or resonance
plus the strenght of the carbon may reduce the resonance (would have to be tested how much)
..you can also combine different directioned layers of carbon or carbo/kevlar
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