Finite Element Study of the Stress Response of Bi-Directional Corrugated-Strip Core Sandwich Beam
Abstract
Problem statement: In engineering design, stress affects the size of structural member. A suitable topology of structure should be designed to optimize the stress. Approach: This study presents an alternative topology of truss-like core sandwich beam referred to here as bi-directional corrugated-strip core topology. A finite element method is used to study the stress response of three point loaded truss-like core sandwich beams. Two kinds of core topologies: A truss core and a bidirectional corrugated-strip core are chosen to be analyzed and compared to each other. Results: The results showed that the bi-directional corrugated-strip core topology provided less surfaced normal stress than the truss core topology. Conclusion: From the finding, the stress of truss-like core sandwich beam can be optimized by arranging the core in the alternative bidirectional corrugated-strip core topology.
DOI: https://doi.org/10.3844/jcssp.2011.1335.1337
Copyright: © 2011 Suphattharachai Chomphan and Manit Leekitwattana. This is an open access article distributed under the terms of the
Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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Keywords
- Sandwich beam
- stress response
- truss core
- core topology
- engineering design
- finite element software
- finite element models
- alternative bi-directional
- truss-like core sandwich