[期刊论文] Jiachen Li , Cheng Liu, Haiyan Hu, Shixiong Zhang. Analysis of elasto-plastic thin-shell structures using layered plastic modeling and absolute nodal coordinate formulation, Nonlinear Dynamics, 2021

发布者:孙加亮发布时间:2022-05-02浏览次数:226

Analysis of elasto-plastic thin-shell structures using layered plastic modeling and absolute nodal coordinate formulation


Jiachen Li,Cheng Liu,Haiyan Hu,Shixiong Zhang 


Abstract: A new elasto-plastic thin-shell finite element of the absolute nodal coordinate formulation allowing for large deformation and finite rotation is proposed based on the Kirchhoff-Love theory and layered plastic model. The von Mises yield criterion of plane-stress with linear isotropic hardening is adopted in constitutive description of elasto-plastic material. Owing to the plane-stress constraint, special treatment should be given to the stress update algorithm for plasticity. To accommodate the plasticity formulation, the Gauss-point layered integration is inserted into the thickness of the element to produce the internal force. Then, the Jacobian of internal forces is deduced by deriving the consistent elasto-plastic tangent moduli. To accurately track the load-displacement equilibrium path in the buckling analysis of elasto-plastic thin shells, the arc-length method is used. The dynamics of the thin shells is also studied by using the generalized-alpha algorithm. Finally, several static and dynamic examples are presented to verify the accuracy of the proposed formulation.


原文链接:https://link.springer.com/article/10.1007/s11071-021-06766-9