Is an Analytical Solution Possible for Dynamic Loading in Contact Problems?

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An analytical solution for a dynamic loading contact problem involving a cantilever beam resting on a smooth plane is being sought. The problem is framed under harmonic loading tangential to the contact interface. While a single degree of freedom system may allow for an analytical solution, transitioning to a multi-degree-of-freedom system may necessitate numerical methods. Suggestions include using the mode superposition method or polar coordinates to simplify the problem. The discussion highlights the potential for deriving an analytical solution for the vertical component through hybrid system dynamics.
Iraphysics
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Hi All,

I am trying to get an analytical solution to a contact problem with dynamic loading. I am not sure if an analytical solution of such a problem is possible. Here how the problem is:

A cantilever beam, with its free end resting on a smooth plane, is under harmonic loading f(t) tangential to the contact interface. I am looking for a mathematical equation of this problem.

Suggesting any book, any paper, any help would be much appreciated.

Thanks in advance
Ira
 
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I'm having a hard time trying to visualize what the problem is. Could you draw it and post a picture?
 
Thanks for the reply timthereaper.

I have attached a figure showing my problem. I know if I consider this system as a single degree of freedom system then an analytical solution is possible. For a multi-degree-of-freedom system, I think I'll need to work it out numerically. Using mode superposition method? Or is there any other way?

Thanks for your help.
Ira
 

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Which 2 dimensions do you mean? The two horizontal directions? or horizontal and vertical?

If its the 2 horizontal directions, I'd suggest doing the problem in polar coordinates, so it simplifies back to a 1D problem :)
For the vertical component, there is NOT a continuous numerical solution, but their is an analytical solution you can derive. Look up Hybrid system dynamics.
 

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