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Static Analysis Multibody Dynamics Module

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Dear all,

I am trying to do a steady-state analysis of a rigid body geometry with the Multibody Dynamics Module (MDM).

I set up a geometry of rigid bodies, defined all attachments and approriate hinges following the Workflow of the double pendulum tutorial. Now doing the analysis I get, that I have to constrain the bodies/hinges so they wont move (see linked thread).

However, I cannot find the correct way to do that. Constraining just the hinges or just the rigid bodies, I cannot achieve convergence or get after some iteration s a singular matrix error. Constraining both leads to a singular matrix error even before the computation starts.

The dof overview shows for all cases 0 net dofs and the respective number of net constraints is always larger than 0. Also, I find the dof analysis rather confusing. Shouldnt I be able to solve the set of equations, if the net dof is zero and therefore the system is neither under- nor overdetermined?

Any help, insights or advice you can provide is greatly appreciated.

André.

Ps: I unfortunately cannot share the model file due to security issues since this is for a work related project.


1 Reply Last Post 10 ott 2023, 04:27 GMT-4

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Posted: 1 year ago 10 ott 2023, 04:27 GMT-4

Dear all,

I think I just solved the problem myself after reading the manual again. Apparently the dof will never turn negative if the problem is overdetermined. Instead the number of constraints is larger than zero. Since that is the case for my definitions, I apparently had an overdetermined problem, which probably causes the solver to fail.

I now constrain just the hinges and two of the rigid domains resulting in system with zero dof and zero constraints as well. Checking now if that does the trick.

André

Dear all, I think I just solved the problem myself after reading the manual again. Apparently the dof will never turn negative if the problem is overdetermined. Instead the number of constraints is larger than zero. Since that is the case for my definitions, I apparently had an overdetermined problem, which probably causes the solver to fail. I now constrain just the hinges and two of the rigid domains resulting in system with zero dof and zero constraints as well. Checking now if that does the trick. André

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