Heat generated by friction force

AI Thread Summary
To calculate the heat generated by friction between a rotating disk and a plate, consider the friction force, which is determined by the coefficient of friction and the reaction force. The motor power required to move the discs under load can be used as an estimate for heat generation, assuming all power converts to heat. However, not all power will contribute to temperature rise, as some energy dissipates through deflections, noise, and other areas. This method provides a good estimate for maximum heat generation under optimal conditions. Understanding these factors is crucial for accurate thermal management in mechanical systems.
Prune_man
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Hi guys,

I have a circular disk on the end of a rotating shaft. The disk is pressed into another plate and is rubbing together making friction. I need to know how much heat is going to be generated by the friction.

I think it is a function of the velocity of the plate, the reaction force and the coefficient of friction but I'm not sure.

I know that the Friction force, F=coefficient of friction x Reaction force.

I'm not sure how to change this into a temperature rise or even a heat rise.

Thanks guys
Tommo
 
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The quickest way would be to take the motor power required to move the discs under load and assume that all of that power goes into your heat rise since power is energy per unit time. Of course, not all of that power will go into the temperature rise between the plates. Some of it will go into deflections of the plates and shafts, noise and heat in other areas. It should be a pretty good estimate of what your best condition would be (if you are interested in getting all of the heat possible).
 

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