An assumed strain approach for a linear triangular element able to handle finite deformation problems is presented in this paper. The element is based on a total Lagrangian formulation and its geometry is defined by three nodes with only translational degrees of freedom. The strains are computed from the metric tensor, which is interpolated linearly from the values obtained at the mid-side points of the element. The evaluation of the gradient at each side of the triangle is made resorting to the geometry of the adjacent elements, leading to a four element patch. The approach is then nonconforming, nevertheless the element passes the patch test. To deal with plasticity at finite deformations a logarithmic stress-strain pair is used where an additive decomposition of elastic and plastic strains is adopted. A hyper-elastic model for the elastic linear stress-strain relation and an isotropic quadratic yield function (Mises) for the plastic part are considered. The element has been implemented in two finite element codes: an implicit static/dynamic program for moderately non-linear problems and an explicit dynamic code for problems with strong nonlinearities. Several examples are shown to assess the behavior of the present element in linear plane stress states and non-linear plane strain states as well as in axi-symmetric problems.
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November 2006
Technical Papers
A Two-Dimensional Linear Assumed Strain Triangular Element for Finite Deformation Analysis
Fernando G. Flores
Fernando G. Flores
Department of Structures,
e-mail: fflores@efn.uncor.edu
National University of Cordoba
, Casilla de correos 916, 5000 Cordoba, Argentina
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Fernando G. Flores
Department of Structures,
National University of Cordoba
, Casilla de correos 916, 5000 Cordoba, Argentinae-mail: fflores@efn.uncor.edu
J. Appl. Mech. Nov 2006, 73(6): 970-976 (7 pages)
Published Online: December 19, 2005
Article history
Received:
June 8, 2005
Revised:
December 19, 2005
Citation
Flores, F. G. (December 19, 2005). "A Two-Dimensional Linear Assumed Strain Triangular Element for Finite Deformation Analysis." ASME. J. Appl. Mech. November 2006; 73(6): 970–976. https://doi.org/10.1115/1.2173674
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