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Modelling Snap-through of curved beams-Post-buckling analysis

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Hi there,

I am new to COMSOL and am trying to model the snap through of curved beams in one dimensional lattice in 3D. With one of the boundaries of lattice fixed and opposite boundary has been given a prescribed displacement. Lateral sides are on a roller constraints to prevent buckling in that direction. The stationary solver is set to run a continuation sweep over the displacement.

Few Questions:
1. I am having trouble with convergence when the lattice reaches a state where one of the curved beams is about to snap-through. I tried using smaller steps around that point and refining the mesh, which didn't help. Is there a way go past 'that' point?
2. How repeatable is snap-through phenomenon computationally?

Thanks in advance.
PS: An image of the lattice in 2D is attached.



1 Reply Last Post 2016年6月27日 GMT-4 03:47
Henrik Sönnerlind COMSOL Employee

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Posted: 8 years ago 2016年6月27日 GMT-4 03:47
Hi,

This example is a useful starting point for doing a post-buckling analysis:

www.comsol.com/model/postbuckling-analysis-of-a-hinged-cylindrical-shell-10257

Regards,
Henrik
Hi, This example is a useful starting point for doing a post-buckling analysis: https://www.comsol.com/model/postbuckling-analysis-of-a-hinged-cylindrical-shell-10257 Regards, Henrik

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