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Large deflection of multilayer sandwich beams with foam-filled trapezoidal corrugated and foam cores
Abstract The paper used the analytical and numerical methods to analyze large deflection of multilayer sandwich beams with foam-filled trapezoidal corrugated and foam cores. Considering both the strength of metal foam and corrugated core, we obtained a yield criterion for the multilayer sandwich structure foam-filled trapezoidal corrugated and foam cores. Based on proposed yield criterion, we further presented an analytical solution for large deflection of such multilayer sandwich beam under transverse loading. Well agreement is achieved between analytical and numerical results. What is more, we discussed the effects of foam strength, punch size, face-sheet thickness and middle foam thickness on the plastic behaviors.
Highlights Large deflection of multilayer sandwich beams with foam-filled trapezoidal corrugated and foam cores is studied. The yield criterion for multilayer sandwich structures with foam-filled trapezoidal corrugated and foam cores is obtained. Analytical solutions are derived for large deflection of multilayer sandwich beams under transverse loading. Good agreement is achieved between analytical and numerical results. Foam strength, punch size and face-sheet thickness have significant effects on plastic behavior of sandwich beams.
Large deflection of multilayer sandwich beams with foam-filled trapezoidal corrugated and foam cores
Abstract The paper used the analytical and numerical methods to analyze large deflection of multilayer sandwich beams with foam-filled trapezoidal corrugated and foam cores. Considering both the strength of metal foam and corrugated core, we obtained a yield criterion for the multilayer sandwich structure foam-filled trapezoidal corrugated and foam cores. Based on proposed yield criterion, we further presented an analytical solution for large deflection of such multilayer sandwich beam under transverse loading. Well agreement is achieved between analytical and numerical results. What is more, we discussed the effects of foam strength, punch size, face-sheet thickness and middle foam thickness on the plastic behaviors.
Highlights Large deflection of multilayer sandwich beams with foam-filled trapezoidal corrugated and foam cores is studied. The yield criterion for multilayer sandwich structures with foam-filled trapezoidal corrugated and foam cores is obtained. Analytical solutions are derived for large deflection of multilayer sandwich beams under transverse loading. Good agreement is achieved between analytical and numerical results. Foam strength, punch size and face-sheet thickness have significant effects on plastic behavior of sandwich beams.
Large deflection of multilayer sandwich beams with foam-filled trapezoidal corrugated and foam cores
Zhang, Jianxun (author) / Sun, Hao (author) / Du, Jinlong (author) / Liu, Xiaoming (author) / Xu, Zhimin (author) / Huang, Wei (author)
Thin-Walled Structures ; 179
2022-07-05
Article (Journal)
Electronic Resource
English
Three-point bending of sandwich beams with aluminum foam-filled corrugated cores
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