SANTOSA S,WIERZBICKI T.Crash Behavior of Box Columns Filled with Aluminum Honeycomb or Foam[J].Computers & Structures,1998,68(4):343-367.
[2]
RUAN D,LU G,WANG B,et al.In-plane Dynamic Crushing of Honeycombs:A Finite Element Study[J].International Journal of Impact Engineering,2003,28:161-182.
[3]
ZOU Z,REID S R,TAN P J,et al.Dynamic Crushing of Honeycombs and Features of Shock Fronts[J].International Journal of Impact Engineering,2009,36(1):165-176
[4]
MOHR D,DOYOYO M.Large Plastic Deformation of Metallic Honeycomb:Orthotropic Rate Independent Constitutive Model[J].International Journal of Solids and Structures,2004,41(16/17):4435-4456.
[5]
WADLEY H,DHARMASENA K,QUEHEILLALT D,et al.Dynamic Compression of Square Honeycomb Structures During Underwater Impulsive Loading[J].Journal of Mechanics of Materials and Structures,2007,2(10):2025-2048.
[6]
伊汉峰,文桂林.基于简化基本折叠单元法的蜂窝耐撞性优化设计[J].机械工程学报,2011,47(16):94-100. YI Han-feng,WEN Gui-lin.Crashworthiness Optimization Design of Honeycombs Based on the Simplified Basic Folding Element Method[J].Journal of Mechanical Engineering,2011,47(16):94-100.
[7]
胡玲玲,陈依骊.三角形蜂窝在面内冲击载荷下的力学性能[J].振动与冲击,2011,30(5):227-229,235. HU Ling-ling,CHEN Yi-li.Mechanical Properties of Triangular Honeycombs Under In-plane Impact Loading[J].Journal of Vibration and Shock,2011,30(5):227-229,235.
[8]
卢文浩,鲍荣浩.动态冲击下蜂窝材料的力学行为[J].振动与冲击,2005,24(1):50-52. LU Wen-hao,BAO Rong-hao.Mechanical Behavior of Honeycombs Under Dynamic Impact[J].Journal of Vibration and Shock,2005,24(1):50-52.
[9]
ZHANG X,HUN H.Crushing Analysis of Polygonal Columns and Angle Elements[J].International Journal of Impact Engineering,2010,37(4):441-451.
[10]
刘耀东,虞吉林,郑志军.惯性对多孔金属材料动态力学行为的影响[J].高压物理学报,2008,22(2):118-124. LIU Yao-dong,YU Ji-lin,ZHENG Zhi-jun.Effect of Inertia on the Dynamic Behavior of Cellular Metal[J].Chinese Journal of High Pressure Physics,2008,22(2):118-124.
[11]
TANG Z L,LIU S T,ZHANG Z H.Energy Absorption Properties of Non-convex Multi-corner Thin-walled Columns[J].Thin-walled Structures,2012,51:112-120.
[12]
刘 颖,张新春.胞元微拓扑结构对蜂窝材料面内冲击性能的影响[J].爆炸与冲击,2008,28(6):495-502. LIU Ying,ZHANG Xin-chun.Influence of Cell Micro-topology on the In-plane Dynamic Properties of Honeycombs[J].Explosion and Shock Waves,2008,28(6):495-502.
[13]
MUKAI T,KANAHASHI H,MIYOSHI T,et al.Experimental Study of Energy Absorption in a Close-celled Aluminum Foam Under Dynamic Loading[J].Scripta Materialia,1999,40(8):921-927.
[14]
YIN H F,WEN G L,HOU S J,et al.Crushing Analysis and Multiobjective Crashworthiness Optimization of Honeycomb-filled Single and Bitubular Polygonal Tubes[J].Materials and Design,2011,32(8/9):4449-4460.
[15]
SEAR K.The Correlation Between a Level Grades and Degree Results in England and Wales[J].Higher Education,1983,12(5):609-619.
[16]
DESHPANDE V S,FLECK N A.High Strain Rate Compressive Behaviour of Aluminium Alloy Foams[J].International Journal of Impact Engineering,2000,24(3):277-298.
[17]
TAN P J,REID S R,HARRIGAN J J,et a1.Dynamic Compressive Strength Properties of Aluminium Foams.Part I-Experimental Data and Observations[J].Journal of the Mechanics Physics Solids,2005,53(10):2174-2205.
[18]
TAN PJ,REID SR,HARRIGAN J J,et a1.Dynamic Compressive Strength Properties of Aluminium Foams.Part Ⅱ-Shock Theory and Comparison with Experimental Dam and Numerical Models[J].Journal of the Mechanics Physics Solids,2005,53(10):2206-2230.
