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Research on mass loss and nose shape evolution of kinetic energy projectiles penetrating concrete at high velocity

  • Published:2024-05-28 Issue:7 Volume:40 Page:
  • ISSN:0567-7718
  • Container-title:Acta Mechanica Sinica
  • language:en
  • Short-container-title:Acta Mech. Sin.

Author:

Yao Zhiyan,Huang Fenglei,Li Jinzhu

Publisher

Springer Science and Business Media LLC

Reference42 articles.

1. M. J. Forrestal, B. S. Altman, J. D. Cargile, and S. J. Hanchak, An empirical equation for penetration depth of ogive-nose projectiles into concrete targets, Int. J. Impact Eng. 15, 395 (1994).

2. J. W. Liu, X. F. Zhang, C. Liu, H. H. Chen, W. Xiong, and M. T. Tan, Research progress of target resistance model of cavity expansion theory and its application (in Chinese), Explo. Shock Waves 41, 101101 (2021).

3. X. Y. Zhang, K. Sun, Y. L. Li, F. Y. Zeng, G. J. Li, and H. J. Wu, Cavity expansion model and penetration mechanism of concrete with different strengths based on the Ottosen yield condition (in Chinese), Explo. Shock Waves 43, 58 (2023).

4. I. Ga, D. Noh, and J. W. Yoon, Spherical cavity expansion method dependent on strain, strain rate, and temperature, Int. J. Impact Eng. 181, 104730 (2023).

5. Z. J. Hong, Y. Z. Yang, X. Z. Kong, and Q. Fang, Practical engineering calculation models for rigid projectile penetrating and perforating into concrete target (in Chinese), Explo. Shock Waves 43, 65 (2023).
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