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A three-dimensional Eulerian method for the numerical simulation of high-velocity impact problems

A three-dimensional Eulerian method for the numerical simulation of high-velocity impact problems
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摘要 In the present paper, a three-dimensional (3D) Eulerian technique for the 3D numerical simulation of high-velocity impact problems is proposed. In the Eulerian framework, a complete 3D conservation element and solution element scheme for conservative hyperbolic governing equations with source terms is given. A modified ghost fluid method is proposed for the treatment of the boundary conditions. Numerical simulations of the Taylor bar problem and the ricochet phenomenon of a sphere impacting a plate target at an angle of 60~ are carried out. The numerical results are in good agreement with the corresponding experimental observations. It is proved that our computational technique is feasible for analyzing 3D high-velocity impact problems. In the present paper, a three-dimensional (3D) Eulerian technique for the 3D numerical simulation of high-velocity impact problems is proposed. In the Eulerian framework, a complete 3D conservation element and solution element scheme for conservative hyperbolic governing equations with source terms is given. A modified ghost fluid method is proposed for the treatment of the boundary conditions. Numerical simulations of the Taylor bar problem and the ricochet phenomenon of a sphere impacting a plate target at an angle of 60~ are carried out. The numerical results are in good agreement with the corresponding experimental observations. It is proved that our computational technique is feasible for analyzing 3D high-velocity impact problems.
出处 《Chinese Physics B》 SCIE EI CAS CSCD 2014年第3期338-347,共10页 中国物理B(英文版)
基金 Project supported by the National Natural Science Foundation of China(Grant Nos.10732010,10972010,and 11332002)
关键词 three-dimensional numerical simulation conservation element and solution element (CE/SE)method ghost fluid method high-velocity impact three-dimensional numerical simulation, conservation element and solution element (CE/SE)method, ghost fluid method, high-velocity impact
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