4.6 Article

Post-buckling behavior and failure analysis of asymmetric sandwich panels under uniaxial compression

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SAGE PUBLICATIONS LTD
DOI: 10.1177/10996362231199101

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Asymmetric sandwich panels; post-buckling; uniaxial compression; failure mechanism; glass fibers; finite element analysis

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This paper investigates the mechanical behavior of asymmetric sandwich panels (ASPs) under compression through experimental and numerical methods. The presence of a tapered region significantly affects stress distribution and failure initiations. The results provide a reference for the optimal design of ASPs.
Sandwich structures with an asymmetric configuration are employed to introduce in-plane loads as well as to connect them with other structural components. Understanding their failure mechanism is crucial to ensure the safety design of aircraft. This paper investigates experimentally and numerically the mechanical behavior of asymmetric sandwich panels (ASPs) under compression. Quasi-static tests are conducted to obtain the buckling loads, post-buckling behavior, and load-bearing capacity of ASPs. A non-linear finite element (FE) model is developed to elucidate their damage behavior and failure mechanism. Numerical predictions are compared with test results to validate the FE model and failure analysis. The results demonstrate that the presence of a tapered region significantly influences stress distribution and failure initiations. A parametric study is also conducted to investigate the effects of the tapered angle on the compression response of ASPs. The reported results can provide a reference for the optimal design of ASPs.

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