NON-LINEAR BEHAVIOUR OF SHELLS

Hello collages. I have done a simple test, where I have modeled a square hollow section 100x3, submited to a uniformally load on the top. I have checked results of this 2m simple beam with classical formulas, and the results of the internal solver of Mecway are very close. Calculix, I think because the methodology to expand from shells to solid, has more than 60% diference.
Is there intention to develop nonlinear capabilities for the internal solver? I want to evaluate stainless steel material analysis, for example, or non-linear buckling of shells.

Thank you for your time.

JJ

Comments

  • Hello JJJ

    Nonlinear shells for the internal solver are not a priority, sorry.

    I'm surprised at that 60% error. You might need more refinement with the CCX shells. Also make sure the mesh is quad-dominant, not linear triangles.

    You can also use the OpenRadioss solver which has more traditional nonlinear shells. Use damping to obtain a static solution.
  • Hi Victor,

    Thank you very much for your reply, and of course sincerity. Bad news from you about that... I need to work with stainless in some projects, and as you know the Ramberg-Osgood model is the material law to be considered.
    Aditional options could be:
    1- Posibility about Opensees as solver https://opensees.berkeley.edu/
    2- Posibility about OOFEM as solver https://www.oofem.org/doku.php?id=en:oofem
    What do you think about these options? Would be very nice.

    I have used the same mesh for both softwares, and it is quad-dominant. I am not confident with this procedure
  • Hi Victor, could you see this question I did? On the other hand, CODE-ASTER is a recognised software in industry. I don´t know how it works, but are you thinking that Mecway could be a pre and post processor for that?
  • Yes, if I add another solver, I think it would probably be Code Aster. Not sure about Opensees or OOFEM because I haven't heard about them very much.

    Using the same mesh could be the problem and you might need to refine it for CCX.
  • @JJJ I have used Opensees, it is pretty easy to use and the manual is very detailed. I came up with python scripts which automate model development. The only issue is that the python packages gives some issues so I have opted to use the exe where data is directly fed into the exe file
  • @Victor
    Very good news, to know that you are thinking about to include Code Aster as an option. An industry recognised software, be possible one of the most (if not the most) on the Open Source world.
    OOFEM is a software implemented in NextFEM.
    OpenSees I think would be a very interesting option: it is very recognised for seismic analysis. Today is implemented by different pre and post processors (NextFEM and STKO), but also in commercial software (Cype).
    And what about Nastran: this is also a very recognised software in industry. After your implementation of Mystran, I think won´t be very difficult to do that
    @Mishal yes you are right, documentation is very good. But graphic interface is always wellc@Victoroi
  • edited 8:02AM
    Para un ingeniero civil una opción magnífica sería OPENSEES.
  • No sólo para un ingeniero civil. Fíjate Cypeconnect... se amplían muchísimo las opciones disponibles.
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