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Shock-Induced Shear Bands in an Energetic Molecular Crystal: Application of Shock-Front Absorbing Boundary Conditions to Molecular Dynamics Simulations

机译：高能分子晶体中的激波诱导剪切带：冲击前吸收边界条件在分子动力学模拟中的应用

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The response of the energetic molecular crystal cyclotrimethylene trinitramine RDX to the propagation of planar shock waves normal to (100) has been studied using large-scale molecular dynamics simulations that employ an accurate and transferable nonreactive potential. The propagation of the shock waves was simulated using nonequilibrium molecular dynamics. Shear bands were nucleated during shocks with a particle velocity of 1.0 km per second and corresponding Rankine-Hugoniot shock pressure of 9.7 GPa. These defects propagate into the compressed material at 45 degrees to (100) in the (010) zone. The shear bands evolve slowly compared to the time scales routinely accessible to nonequilibrium molecular dynamics toward a liquid like state as a result of viscous heating. A recently developed shock-front absorbing boundary condition (A. V. Bolesta et al., Phys. Rev. B 76, 224108 2007) was applied to the simulation cells at the moment of maximum compression to sustain the shock- compressed state. Molecular dynamics simulations were then employed to study the temporal and structural evolution of the shock-induced shear bands toward a steady-fluctuating state. Owing to the intense, viscous flow-driven heating within the shear bands, these defects can be considered to be homogeneously nucleated hot spots.

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Cawkwell, M. J.; Sewell, T. D.; Zheng, L.; Thompson, D. L.;
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年度 2008
页码 1-14
总页数 14
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Molecular dynamics ; Rdx ; Blast waves ; Shock waves ; Computerized simulation ; Crystals ; Shear bands ; Boundary value problems ; Scale ; Heating ; Planar structures ; Nonequilibrium flow ; Energetic properties ; Viscosity ; Particles ; Time ; Shock(Mechanics) ; Materials ; Cells ; Molecules ; Simulation ; Compression ; Velocity;

机译：分子动力学; Rdx;爆炸波;冲击波;计算机模拟;晶体;剪切带;边界值问题;尺度;加热;平面结构;非平衡流动;能量特性;粘度;粒子;时间;冲击（力学）;材料;细胞;分子;模拟;压缩;速度;

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专利

1. Shock-induced shear bands in an energetic molecular crystal: Application of shock-front absorbing boundary conditions to molecular dynamics simulations [J] . M. J. Cawkwell, Thomas D. Sewell, Lianqing Zheng, Physical review . 2008,第1期

机译：高能分子晶体中激波诱发的剪切带：激波前吸收边界条件在分子动力学模拟中的应用
2. Semi-analytical solution for the generalized absorbing boundary condition in molecular dynamics simulations [J] . Lee Chung-Shuo, Chen Yan-Yu, Yu Chi-Hua, Computational Mechanics: Solids, Fluids, Fracture Transport Phenomena and Variational Methods . 2017,第1期

机译：分析分子动力学模拟中广义吸收边界条件的半分析解决方案
3. Molecular dynamics simulations of shock waves using the absorbing boundary condition: A case study of methane [J] . Alexey V. Bolesta, Lianqing Zheng, Donald L. Thompson, Physical review. B, Condensed Matter And Materials Physics . 2007,第22期

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4. Molecular Dynamics Simulation on Σ5 Grain Boundaries of Copper Bicrystal under Tensile and Shear Deformation [C] . Liang. Zhang, Cheng. Lu, Kiet. Tieu Materials Research Society Meeting . 2014

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5. Molecular dynamics and continuum simulations of fluid flows with slip boundary conditions. [D] . Niavaranikheiri, Anoosheh. 2011

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6. A Study of the Shock Sensitivity of Energetic Single Crystals by Large-Scale Ab Initio Molecular Dynamics Simulations [O] . Lei Zhang, Yi Yu, Meizhen Xiang 2019

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7. Application of Periodic-Shell Boundary Condition to Non-Rigid Molecular Systems. Molecular Dynamics Simulations on a Flow around a Circular Cylinder. [O] . Akira Satoh 1994

机译：周期壳边界条件在非刚性分子系统中的应用。在圆柱周围的流动上的分子动力学模拟。

Shock-Induced Shear Bands in an Energetic Molecular Crystal: Application of Shock-Front Absorbing Boundary Conditions to Molecular Dynamics Simulations

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