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Modeling axon on a shaker plate.

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I am trying to model an axon (as a half cylinder viscoelastic beam) on a shaker plate with an amplitude of 3mm under frequency analysis to find the frequency at which the axon receives any appreciable damage from the shaking (defined at some stress threshold).

I am using the frequency analysis of the structural mechanics module, and my geometry consists of a rectangular slab (as the shaker plate) with a half cylinder in contact on top of it. Viscoelastic properties were applied to the half cylinder and a prescribed displacement of 3mm was added to the subdomain and boundary conditions of the rectangular slab.

A frequency range of 0:10:100 was then solved for.

However, I am not sure I am approaching this problem correctly because there does not appear to be any stresses in the cylinder due to the shaking (even at really high frequencies), and was wondering if anyone could offer any tips?

Thanks,
Dan


0 Replies Last Post 22 nov. 2010, 19:58 UTC−5
COMSOL Moderator

Hello Dan Linard

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