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Factors Affecting Energy Absorption of a Plate during Shock Wave Impact Using a Damage Material Model

机译：用损伤材料模型影响冲击波冲击板能量吸收的因素

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This thesis examines the influences of five factors on the strain energy at failure of metallic alloy plates during a shock wave impact. The five factors are material type, initial damage, boundary conditions, plate thickness, and plate temperature. The finite element simulation matrix was developed using a statistical design of experiments (DOE) technique. The Eulerian hydrocode CTH was used to develop the pressure histories that were input into the finite element code Abaqus/Explicit, which implemented the Mississippi State University internal state variable (ISV) plasticity-damage model (DMG). The DMG model is based on the Bammann-Chiesa-Johnson (BCJ) ISV plasticity formulation with the addition of porosity and the void nucleation, growth, and coalescence rate equations that admit heterogeneous microstructures. Material type and thickness were the primary influences on the strain energy at failure, and the materials studied, magnesium and aluminum, showed two different failure mechanisms, tearing at the boundaries and spalling, respectively.

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作者
Crosby, Z. K.;
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年度 2010
页码 p.1-139
总页数 139
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Shock waves ; Strain(Mechanics) ; Blast ; Failure(Mechanics) ; Structural response ; Absorption ; Metal plates ; Blast loads ; Alloys ; Aluminum ; Pressure ; Euler equations ; Tnt ; Spallation ; Theses ; Explosions ; Fragmentation ; Damage ; Thickness ; Temperature ; Tearing ; Computerized simulation ; Magnesium;

机译：冲击波;应变（力学）;爆炸;失效（力学）;结构响应;吸收;金属板;爆炸载荷;合金;铝;压力;欧拉方程; Tnt;散裂;论文;爆炸;破碎;损坏;厚度;温度;撕裂;计算机模拟;镁;

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1. Shock Waves Impacting Composite Material Plates: The Mutual Interaction [J] . YIANNIS ANDREOPOULOS JOM . 2013,第2期

机译：冲击波冲击复合材料板：相互作用
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3. Modeling Hypervelocity-Impact-Induced Shock Waves for Characterizing Orbital Debris-Produced Damage [J] . Liu Menglong, Su Zhongqing, Zhang Qingming, Journal of Applied Mechanics: Transactions of the ASME . 2016,第8期

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机译：复合材料冲击试验中的能量吸收和破坏程度
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机译：使用损伤材料模型影响冲击波冲击期间板的能量吸收的因素。
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Factors Affecting Energy Absorption of a Plate during Shock Wave Impact Using a Damage Material Model

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