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Numerical Simulation Analysis of the Influence of Cone Angle on EFP Forming with PELE Effect
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School of Mechanical Engineering, North University of China, Taiyuan 030051, China

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    Abstract:

    To enhance the damage effectiveness of anti-light armor target ammunition, a kind of variational-wall-thickness arc-cone liner with low-density loading material was proposed. The influence law of each cone angle on explosively formed projectiles (EFP) forming and the penetration effect of EFP on target plate were analyzed by finite element software LS-DYNA. The curve of EFP forming parameters with each cone angle was obtained by fitting. Results show that when the inner cone angle α1 of liner takes 166°-170.2°, the inner cone angle α2 of filler takes 160°-166°, the outer cone angle α3 of filler takes 140°-152°, the outer cone angle α4 of liner takes 132°-140°, the EFP forming speed is fast and forming effect is good. The α3 has the greatest influence on the forming speed, length and radial dimension of EFP, and the α1 has the greatest influence on the center thickness of EFP. Based on the research results, the structure of the liner was optimized. The optimized liner can form an EFP with distinct penetrator with enhanced lateral efficiency(PELE) effect, which expands the hole when penetrating the target plate and forms some high-speed fragments in the target interior to cause secondary damage after penetrating the target plate.

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王雪飞,尹建平.锥角对具有PELE效应的EFP成型影响的数值仿真分析[J].含能材料,2019,27(2):104-112.
WANG Xue-fei, YIN Jian-ping. Numerical Simulation Analysis of the Influence of Cone Angle on EFP Forming with PELE Effect[J]. Chinese Journal of Energetic Materials,2019,27(2):104-112.

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History
  • Received:May 23,2018
  • Revised:November 21,2018
  • Adopted:July 28,2018
  • Online: October 15,2018
  • Published: February 25,2019