Dynamic Failure Analysis of Foam Sandwich Structure Using 3D Material Point Method

C. Wang; H. Chen; Xiao Hu; Y. Wang

Dynamic Failure Analysis of Foam Sandwich Structure Using 3D Material Point Method

C. Wang, H. Chen, Xiao Hu, Y. Wang

Research output: Contribution to journal › Article › peer-review

Abstract

The blast-resistant of an aluminum foam sandwich structure under impact has been investigated. Plastic deformation and load distributions in each of the sub-layers during and after impact were calculated by the material point method with the consideration of strain rate effect on deformation of the aluminum foam. The numerical results from the 3D material point method modeling show that the blast-resistant capability of the aluminum foam sandwich structure is excellent, and the energy absorbability of the structure would be underestimated if the strain rate effect on the aluminum foam is ignored.

Original language	English
Pages (from-to)	363-367
Journal	Advanced Materials Research
Volume	41-42
Publication status	Published - 2008

Cite this

@article{30019c5d74134f7492c3ae3f0beb63b4,

title = "Dynamic Failure Analysis of Foam Sandwich Structure Using 3D Material Point Method",

abstract = "The blast-resistant of an aluminum foam sandwich structure under impact has been investigated. Plastic deformation and load distributions in each of the sub-layers during and after impact were calculated by the material point method with the consideration of strain rate effect on deformation of the aluminum foam. The numerical results from the 3D material point method modeling show that the blast-resistant capability of the aluminum foam sandwich structure is excellent, and the energy absorbability of the structure would be underestimated if the strain rate effect on the aluminum foam is ignored.",

author = "C. Wang and H. Chen and Xiao Hu and Y. Wang",

year = "2008",

language = "English",

volume = "41-42",

pages = "363--367",

journal = "Advanced Materials Research",

issn = "1022-6680",

publisher = "Trans Tech Publications",

}

TY - JOUR

T1 - Dynamic Failure Analysis of Foam Sandwich Structure Using 3D Material Point Method

AU - Wang, C.

AU - Chen, H.

AU - Hu, Xiao

AU - Wang, Y.

PY - 2008

Y1 - 2008

N2 - The blast-resistant of an aluminum foam sandwich structure under impact has been investigated. Plastic deformation and load distributions in each of the sub-layers during and after impact were calculated by the material point method with the consideration of strain rate effect on deformation of the aluminum foam. The numerical results from the 3D material point method modeling show that the blast-resistant capability of the aluminum foam sandwich structure is excellent, and the energy absorbability of the structure would be underestimated if the strain rate effect on the aluminum foam is ignored.

AB - The blast-resistant of an aluminum foam sandwich structure under impact has been investigated. Plastic deformation and load distributions in each of the sub-layers during and after impact were calculated by the material point method with the consideration of strain rate effect on deformation of the aluminum foam. The numerical results from the 3D material point method modeling show that the blast-resistant capability of the aluminum foam sandwich structure is excellent, and the energy absorbability of the structure would be underestimated if the strain rate effect on the aluminum foam is ignored.

M3 - Article

SN - 1022-6680

VL - 41-42

SP - 363

EP - 367

JO - Advanced Materials Research

JF - Advanced Materials Research

ER -

Dynamic Failure Analysis of Foam Sandwich Structure Using 3D Material Point Method

Abstract

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