Experimental Study on Penetration Resistance of Steel Fiber Reinforced Concrete by High-speed Long Rod Projectile

【Author】

Guangle ZHANG;Yong HE;Xiaoning ZHAO;Xuchao PAN;

【Abstract】

Based on series of experiments that high-speed long rod projectile penetrates steel fiber concrete with different rate of fibre, penetration ability, penetration stability, deformation and destruction of projectile are studied in this paper. The typical characteristics of semi-liquid penetration and rigid body penetration are revealed, and also the feature of the penetrated projectile, the maximum initial velocity of rigid body penetration, ballistic bending and erosion with being/breakage are showed clearly.

【Keywords】

Mechanics of explosion, Penetration, Steel fiber reinforced concrete, High-speed long rod projectile, Subcaliber projectile, Crater

References

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Springer Journals Database

Total: 9 articles

  • [1] CHEN Xiao-wei(Institute of Structural Mechanics,China Academy of Engineering Physics,Mianyang621900,Sichuan,China), Mechanics of structural design of EPW(Ⅰ): The penetration/Perforation theory and the analysis on the cartridge of projectile, Explosion and Shock Waves,
  • [2] LIANG Bin, CHEN Xiao-wei, JI Yong-qiang, HUANG Han-jun, GAO Hai-ying (Institute of Structural Mechanics, China Academy of Engineering Physics, Mianyang 621900, Sichuan, China), Experimental study on deep penetration of reduced-scale advanced earth penetrating weapon, Explosion and Shock Waves,
  • [3] X. W. Chen;;Q. M. Li, Transition from Nondeformable Projectile Penetration to Semihydrodynamic Penetration, Journal of Engineering Mechanics,
  • [4] Michael J Forrestal;;Andrew J. Piekutowski, Penetration experiments with 6061-T6511 aluminum targets and spherical-nose steel projectiles at striking velocities between 0.5 and 3.0<ce:hsp sp="0.25"/>km/s, International Journal of Impact Engineering,

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