algorithmic modeling for Rhino
I am trying to model the response of a single panel under a vertical force past its buckling capacity.
For my first attempt I created a beam with a slight eccentricity and provided a force to the top of the beam. This model works, however it does not give the correct real life response, as the force is applied it initially does not displace much but as the force increases the displacement increases by larger amounts. This suggests that the material has yeilded.
Instead I would expect my beam to get more and more curved (a C like shape), and as it gets more curved the larger the force required to maintain the curve.
My second try involved trying to model a straight panel and produce a buckling curve, however I have not been able to make this successful.
Is there any better way to model the forces involved in producing a C-shaped curve from a straight panel in order to achieve an accurate representation of the forces and displacement in the panel?
Many thanks in advance.
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Thank you for your reply.
Oh yes, you are correct that my first model with a slight eccentricity should behave the way it does. I did not think about that.
But for my second attempt if you view the attached picture, I am trying to model a panel which has just buckled and I would like to obtain the forces required to keep it in certain curvatures (C-shapes). This sort of behaviour should be elastic deformation, however, intuitively if you try to make the straight panel more and more curved it should require a larger force (this is after the buckling has occurred).
I am expecting a graph similar to the second attached image.
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