Open stefano2734 opened 1 week ago
See
https://github.com/marioruiarruda
https://github.com/marioruiarruda/Hashin_3D_UMAT https://github.com/marioruiarruda/Hashin_2D_UMAT
https://github.com/marioruiarruda/Tsai-Wu_2D_UMAT https://github.com/marioruiarruda/Tsai-Wu_3D_UMAT
concrete damage model https://github.com/marioruiarruda/Mazars_UMAT
and a debugger for UMAT https://github.com/marioruiarruda/UMAT_Debugger
Perhaps a good extension in materials for calculix.
the Autor want only a declaration of his papers to his tools. https://github.com/marioruiarruda/Hashin_3D_UMAT/issues/1
I see for mazard best chance for fast adaption. Thai-Wu and Hashin are for layered composite materials like GFK or CFK. And layered 2D elements are not available in Calculix at internal Element level with classic layer theory.
See
https://github.com/marioruiarruda
https://github.com/marioruiarruda/Hashin_3D_UMAT https://github.com/marioruiarruda/Hashin_2D_UMAT
https://github.com/marioruiarruda/Tsai-Wu_2D_UMAT https://github.com/marioruiarruda/Tsai-Wu_3D_UMAT
concrete damage model https://github.com/marioruiarruda/Mazars_UMAT
and a debugger for UMAT https://github.com/marioruiarruda/UMAT_Debugger
Perhaps a good extension in materials for calculix.
the Autor want only a declaration of his papers to his tools. https://github.com/marioruiarruda/Hashin_3D_UMAT/issues/1
I see for mazard best chance for fast adaption. Thai-Wu and Hashin are for layered composite materials like GFK or CFK. And layered 2D elements are not available in Calculix at internal Element level with classic layer theory.