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Plastic continuum models for truss lattice materials with cubic symmetry
Taehyo Park/Won-Sup Hwang/Jong Wan Hu
The Journal of Mechanical Science and Technology, vol. 24, no. 3, pp.657-669, 2010
Abstract : Analytical and numerical studies on continuum models for the elastic-plastic behavior of uniformly periodic lattice materials under
multi-axial loading are presented in this paper. This study firstly investigates the basic topology of unit cell structures for three different
lattice materials with cubic symmetry. By homogenizing the mechanical properties of these materials within the unit volume space, the
equivalent continuum models are obtained with the internal variables which result in the mechanical and geometrical characteristics of
discrete truss members at the micro-scale such as structural packing, axial stiffness, and material density. Therefore, in this study, the
strain hardening was applied to the material model of individual truss members in a valuable effort to explain the plastic behavior of the
homogenized lattice material. The expansion of pressure-dependent stress surface at the macro-scale level is estimated by analytical predictions,
which are derived from the equivalent continuum models. Analytical predictions show good agreements with existing results
obtained by finite element (FE) analyses.
Keyword : Homogenization; Cubic symmetry; Unit cell element; Constitutive model; Stress surface |
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