Deformation Mechanisms of Closed Cell-Aluminium Foams During Drop Weight Impact

The Minerals, Metals and Materials Society

M. A. Kader M. A. Islam A. D. Brown P. J. Hazell M. Saadatfar J. P. Escobedo

Organization:: The Minerals, Metals and Materials Society
Pages:: 7
File Size:: 1953 KB
Publication Date:: Mar 1, 2017

Abstract

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The present study investigates the dynamic deformation mechanisms of closed-cell aluminium foams during low velocity drop weight impact with experimental analyses and finite element (FE) simulation.The evolution of foam collapse was explored with FE simulation using ABAQUS/Explicit. X-ray computed tomography (XRT) based geometry was reconstructed to understand the actual microstructural changes during impact. The experimenta lstress-strain response was compared with FE simulation with reasonably good agreement observed between FE prediction and experimental data. A vertical cross-sectional XRT slice was analysed at different strains from FE simulation to understand the pore collapse mechanisms.

Citation

APA: M. A. Kader M. A. Islam A. D. Brown P. J. Hazell M. Saadatfar J. P. Escobedo (2017) Deformation Mechanisms of Closed Cell-Aluminium Foams During Drop Weight Impact

MLA: M. A. Kader M. A. Islam A. D. Brown P. J. Hazell M. Saadatfar J. P. Escobedo Deformation Mechanisms of Closed Cell-Aluminium Foams During Drop Weight Impact. The Minerals, Metals and Materials Society, 2017.

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