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Crushing analysis under multiple impact loading cases for multi-cell triangular tubes
AbstractRecently, requirements for data regarding crushing force have motivated researchers to investigate the crushing behaviour of tubes. The present work aims to study the crushing of multi-cell triangular tubes made of aluminium alloy AA6060T4 using theoretical and numerical analyses under multiple impact loadings. By dividing the profile into several basic angular elements and using the Improved Simplified Super Folding Element (ISSFE) theory, theoretical equations of the mean crushing/horizontal force, and the mean bending moment are proposed to calculate the mean crushing strength of these sections. It is found that the number of “cells” in a tube's structure and to a certain extent the load angle have a considerable effect on the Specific Energy Absorption (SEA), and Mean Crushing Force (MCF). Numerical analyses were conducted, and the simulation results show a strong correlation between the crush response and the cross-section of the tubes. The analytical predictions for the MCF are compared with the FE results.
HighlightsThe dissipated energy in bending and membrane of 3-panel angle element in type 1 and 2.Investigate the crushing behaviour of the typical multi-cell triangular tubes under the multi-loading cases.Investigate the effect of tube's number of cells and the load angle on Specific Energy Absorption (SEA) and Mean Crushing Force (MCF).
Crushing analysis under multiple impact loading cases for multi-cell triangular tubes
AbstractRecently, requirements for data regarding crushing force have motivated researchers to investigate the crushing behaviour of tubes. The present work aims to study the crushing of multi-cell triangular tubes made of aluminium alloy AA6060T4 using theoretical and numerical analyses under multiple impact loadings. By dividing the profile into several basic angular elements and using the Improved Simplified Super Folding Element (ISSFE) theory, theoretical equations of the mean crushing/horizontal force, and the mean bending moment are proposed to calculate the mean crushing strength of these sections. It is found that the number of “cells” in a tube's structure and to a certain extent the load angle have a considerable effect on the Specific Energy Absorption (SEA), and Mean Crushing Force (MCF). Numerical analyses were conducted, and the simulation results show a strong correlation between the crush response and the cross-section of the tubes. The analytical predictions for the MCF are compared with the FE results.
HighlightsThe dissipated energy in bending and membrane of 3-panel angle element in type 1 and 2.Investigate the crushing behaviour of the typical multi-cell triangular tubes under the multi-loading cases.Investigate the effect of tube's number of cells and the load angle on Specific Energy Absorption (SEA) and Mean Crushing Force (MCF).
Crushing analysis under multiple impact loading cases for multi-cell triangular tubes
Tran, TrongNhan (Autor:in)
Thin-Walled Structures ; 113 ; 262-272
11.01.2017
11 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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