27th Congress of International Council of the Aeronautical Sciences, 19 - 24 September 2010, Nice, France
Paper ICAS 2010-9.1.2

FINITE ELEMENT SIMULATION OF SHOCK ENHANCEMENT IN CELLULAR STRUCTURES UNDER IMPACT LOADING
T. Suo, X. Xiang, Y. Li, B. Hou
NPU, China
Keywords: aluminium foam, shock wave, critical impact velocity, finite element method

The impact response of aluminium foam and its dependence on relative density and impact velocity are analyzed. The simulation results show shock enhancement of the cellular structure becomes more significant with lower relative density and high impact velocity. The estimated shock front velocity increases with impact velocity and relative density.

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27th Congress of International Council of the Aeronautical Sciences, 19 - 24 September 2010, Nice, France Paper ICAS 2010-9.1.2

FINITE ELEMENT SIMULATION OF SHOCK ENHANCEMENT IN CELLULAR STRUCTURES UNDER IMPACT LOADING

T. Suo, X. Xiang, Y. Li, B. Hou NPU, China

view full paper

27th Congress of International Council of the Aeronautical Sciences, 19 - 24 September 2010, Nice, France
Paper ICAS 2010-9.1.2

T. Suo, X. Xiang, Y. Li, B. Hou
NPU, China