Understanding the Impact of Shaft Diameter Changes on Torque

AI Thread Summary
A change in shaft diameter affects torque due to the relationship between torque, shear stress, and the polar moment of inertia. When a shaft has an abrupt diameter change, the torque capacity can be influenced by the smaller diameter section, which may limit the overall torque the shaft can transmit. The formula Torque2 = Torque1 / 1.5 is not directly applicable without considering the specific loading conditions and material properties. It's essential to analyze the shaft's entire geometry and loading scenario to determine the exact impact on torque. Proper problem statement and relevant equations are crucial for accurate calculations.
Darnell123
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hi,

could anyone explain to me how a change in a shaft diameter affect the Torque.

let's say D1/D2=1.5, should i assume Torque2 = Torque1 / 1.5 ?

thanks for your help
 
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You will have to clarify the question. Is this a shaft under a given load that has an abrupt diameter change at some point along its length? Or are you saying that if one shaft is fatter than the other, how much more torque can it support? Or are you asking something else?
 
indeed it is one shaft having an abrubt change in diameter along its lenght.
 
Darnell123 said:
indeed it is one shaft having an abrubt change in diameter along its lenght.
Please state the problem statement, noting all variables and given/known data; list the relevant equations you think you might need to solve the problem; and show some attempt at a solution.
 
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