Coefficient of Friction in a V-Belt System -- Torque Changes?

AI Thread Summary
Increasing the coefficient of friction (CoF) in a V-belt pulley system does not necessarily lead to increased torque, as initially expected. The tension formula for V-belts indicates that higher CoF should increase the ratio of tight to slack side tension, potentially increasing torque. However, a calculation error may be the reason for the unexpected results. It is important to verify calculations to ensure accuracy in understanding the relationship between CoF and torque. Proper analysis of the tension formula is crucial for accurate torque assessments in V-belt systems.
PizzaWizza
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Can anyone explain why, if you increase the CoF of the belt on a V-Belt pulley system, you'd get less torque?

I've increased my CoF in the V-Belt tension formula. You'd have thought that the torque would increase with a belt with a greater CoF?
 
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This equation? -

Belt tension for V belts: F1/F2=e^((μθ)/sinα))

Your intuition is right, as mu increases then F1/F2 increases so more torque for a given tight side belt tension - I suspect you've made a calculation error.
 
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Thanks again Billy, I'll double check calcs
 
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