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Stress analysis of two-dimensional cellular materials with thick cell struts
Han Sung Kim
The Journal of Mechanical Science and Technology, vol. 22, no. 5, pp.835-845, 2008
Abstract : Finite element analyses (FEA) were performed to thoroughly validate the collapse criteria of cellular materials presented
in our previous companion paper. The maximum stress (von-Mises stress) on the cell strut surface and the plastic
collapse stress were computed for two-dimensional (2D) cellular materials with thick cell struts. The results from
the FEA were compared with those from theoretical criteria of authors. The FEA results were in good agreement with
the theoretical results. The results indicate that when bending moment, axial and shear forces are considered, the
maximum stress on the strut surface gives significantly different values in the tensile and compressive parts of the cell
wall as well as in the two loading directions. Therefore, for the initial yielding of ductile cellular materials and the fracture
of brittle cellular materials, in which the maximum stress on the strut surface is evaluated, it is necessary to consider
not only the bending moment but also axial and shear forces. In addition, this study shows that for regular cellular
materials with the identical strut geometry for all struts, the initial yielding and the plastic collapse under a biaxial state
of stress occur not only in the inclined cell struts but also in the vertical struts. These FEA results support the theoretical
conclusion of our previous companion paper that the anisotropic 2D cellular material has a truncated yield surface not
only on the compressive quadrant but also on the tensile quadrant.
Keyword : Cellular materials; Thick cell struts; Collapse criteria; von-Mises stress; Truncated yield surface |
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