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APPLYING MICRO-MECHANICS TO FINITE ELEMENT SIMULATIONS OF SPLIT HOPKINSON PRESSURE BAR EXPERIMENTS ON HIGH EXPLOSIVES

机译：应用微力学在高爆炸物上霍普金森压力杆试验的有限元模拟中

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We have developed a constitutive theory based on the Method of Cells and a modified Mori-Tanaka (MT) effective medium theory to model high explosives. MT effective medium theory allows us to model the smaller explosive grains in the viscoelastic matrix while the Method of Cells partitions the representative volume element into a single subcell designating a large grain, and the remaining subcells for the small grain-binder mixture. The model is then implemented into the finite-element code EPIC. Split Hopkinson Pressure Bar (SHPB) experiments are simulated. We compare the predicted incident, transmitted and reflected strains with SHPB experimental values. [Research supported by the USDOE under contract W-7405-ENG-36.]

机译：我们已经开发了基于细胞方法的本构理论和改进的森-田中（MT）有效介质理论来对高爆炸物建模。 MT有效介质理论使我们能够对粘弹性基体中较小的炸药颗粒进行建模，而“细胞方法”将代表性的体积元素划分为指定大颗粒的单个子细胞，而其余的子细胞则用于小颗粒粘合剂混合物。然后将该模型实现为有限元代码EPIC。模拟了霍普金森分压棒（SHPB）实验。我们将预测的入射，透射和反射应变与SHPB实验值进行比较。 [根据合同W-7405-ENG-36，USDOE支持的研究。]

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《Shock Compression of Condensed Matter―2001》|2002年|p.539-542|共4页
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E. M. Mas; B. E. Clements; W. R. Blumenthal; C. M. Cady; G. T. Gray III;
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1. Calibrating the stress-time curve of a combined finite-discrete element method to a Split Hopkinson Pressure Bar experiment [J] . Osthus Dave, Godinez Humberto C., Rougier Esteban, International Journal of Rock Mechanics and Mining Sciences . 2018,第期

机译：校准组合有限离散元法的应力 - 时间曲线到分裂霍普金森压力条实验
2. Calibrating the stress-time curve of a combined finite-discrete element method to a Split Hopkinson Pressure Bar experiment [J] . Osthus Dave, Godinez Humberto C., Rougier Esteban, International Journal of Rock Mechanics and Mining Sciences . 2018,第期

机译：校准组合有限离散元法的应力 - 时间曲线到分裂霍普金森压力条实验
3. Validation of a three-dimensional Finite-Discrete Element Method using experimental results of the Split Hopkinson Pressure Bar test [J] . E. Rougier, E.E. Knight, S.T. Broome International Journal of Rock Mechanics and Mining Sciences . 2014,第Null期

机译：利用霍普金森压力棒试验的实验结果验证三维有限元法
4. Applying micro-mechanics to finite element simulations of split hopkinson pressure bar experiments on high explosives [C] . E. M. Mas, B. E. Clements, W. R. Blumenthal, Conference of the American Phsical Society Topical Group on Shock Compression of Condensed Matter . 2002

机译：将微型力学应用于高爆炸物拆分霍普金森压杆实验的有限元模拟
5. Study of wave shaping techniques of split Hopkinson pressure bar using finite element analysis. [D] . Tasneem, Nazia. 2005

机译：基于有限元分析的霍普金森压杆的波形整形技术研究。
6. Electromagnetic Interference in Measurements of Radial Stress During Split Hopkinson Pressure Bar Experiments [O] . A.D. Barr, S.D. Clarke, A. Tyas, -1

机译：分裂霍普金森压力棒实验期间测量径向应力的电磁干扰
7. Mechanism of the Strain Rate Effect of Metal Foams with Numerical Simulations of 3D Voronoi Foams during the Split Hopkinson Pressure Bar Tests [O] . Yang B, Liu ZJ, Tang LQ, 2015

机译：3D Voronoi泡沫在霍普金森压杆试验中数值模拟的泡沫金属应变率效应机理
8. Numerical Simulations of Split-Hopkinson Pressure Bar Compression Experiments. (Reannouncement with New Availability Information). [R] . Walker, J. D., Anderson, C. E., Lankford, J. 1989

机译：split-Hopkinson压杆实验的数值模拟。（重新公布新的可用性信息）。

APPLYING MICRO-MECHANICS TO FINITE ELEMENT SIMULATIONS OF SPLIT HOPKINSON PRESSURE BAR EXPERIMENTS ON HIGH EXPLOSIVES

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