Pisith Sam scite author profile

In this study, a methodology to design frame-like periodic solids for isotropic symmetry by appropriate sizing of unit-cell struts is presented. The methodology utilizes the closed-form effective elastic constants of 2D frame-like periodic solids with square symmetry and 3D frame-like periodic solids with cubic symmetry, derived using the homogenization method based on equivalent strain energy. By using the closed-form effective elastic constants, an equation to enforce isotropic symmetry can be analytically constructed. Thereafter, the equation can be used to determine relative unit-cell strut sizes that are required for isotropic symmetry. The methodology is tested with 2D and 3D frame-like periodic solids with some common unit-cell topologies. Satisfactory results are observed.

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Pisith Sam

Closed-form effective elastic constants of frame-like periodic cellular solids by a symbolic object-oriented finite element program

Exact forms of effective elastic properties of frame-like periodic cellular solids

Design of Frame-Like Periodic Solids for Isotropic Symmetry by Member Sizing

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