How Does Belt Friction Calculate Maximum Load Around a Cylinder?

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The discussion focuses on calculating the maximum load a strip can hold when wrapped around a cylinder, influenced by belt friction. The scenario involves a strip wrapped 180 degrees around a cylinder, with a larger load on one end and a holding force on the other. The relationship between the two forces is suggested to be exponential based on the wrapping angle, with the coefficient of static friction being a critical factor. A user provided a link to the Wikipedia page on belt friction, which contains the basic formula and further resources for derivation. The information shared effectively addressed the original query.
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I have been trying to figure out the formula for maximum load held by traction of a band or strip wrapped around a cylinder where there is a given force holding the other end of the strip.

Suppose the strip is wrapped 180 degrees around a horizontally positioned cylinder so that the strip is vertical as as it comes onto and leaves contact with the cylinder. The load is on the left and a holding force is applied downward on the right hand end of the strip. The load would be a larger force than the holding force. From experience, a rope around a tree can resist slipping in the face of tons of load force if the rope is wrapped a few times around the tree and a man holds the end of the rope with only a few pounds of force. It seems to me that the ratio of the two forces is an exponential function of the angle through which the wrapping is done. Of course, the coefficient of static friction between the strip and the cylinder must be known.

Thank you for your help.

Jim Adrian
 
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I believe what you are looking for is called belt friction. Here is the wiki link that has the basic formula:

http://en.wikipedia.org/wiki/Belt_friction

There are some other sites & videos you could find if you want a full derivation.
 
kjohnson said:
I believe what you are looking for is called belt friction. Here is the wiki link that has the basic formula:

http://en.wikipedia.org/wiki/Belt_friction

There are some other sites & videos you could find if you want a full derivation.

kjohnson,

This information completely solves the problem. It even led to a PDF of a derivation.

Thank you for your help.

Jim Adrian
 
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