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IssuesArchive of Issues2022-4pp.820-834

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Li Gan, Chen Xiao-wei, and Song Wen-jie, "Compressible Models of Shaped Charge Jet in Water," Mech. Solids. 57 (4), 820-834 (2022)
Year 2022 Volume 57 Number 4 Pages 820-834
DOI 10.3103/S0025654422040112
Title Compressible Models of Shaped Charge Jet in Water
Author(s) Li Gan (The State Key Lab of Explosion Science and Technology, Beijing Institute of Technology, Beijing, China; Department of Mechanics and Engineering Science, College of Engineering, Peking University, Beijing 100871, China, xinren1210@163.com)
Chen Xiao-wei (The State Key Lab of Explosion Science and Technology, Beijing Institute of Technology, Beijing, China; Advanced Research Institute of Multidisciplinary Science, Beijing Institute of Technology, Beijing, China, chenxiaoweintu@bit.edu.cn)
Song Wen-jie (The State Key Lab of Explosion Science and Technology, Beijing Institute of Technology, Beijing, China)
Abstract Shaped charge jet penetration belongs to hypervelocity penetration, and compressibility of projectile/target material should be considered in the process of penetration. Water has similar compressibility as polymer solid materials (such as Plexiglas and PMMA) and it also belongs to high compressibility materials. Therefore, compressibility should be considered when studying jet into water. Referring to the general compressible solid model, we derived a special complete compressible model regarding to the special case of jet into water in this paper. Meanwhile, we derived an approximate model according to Mie-Grüneisen EOS which were much easy to calculate. In order to solve the shortcomings of complex constructor function and implicit solution of stagnation pressure in approximation model of Mie-Grüneisen EOS, we also derived an approximation model based on Murnaghan EOS. Then, we substituted the relationship between jet velocity and penetration velocity of three models into virtual origin model and studied the influence of water compressibility on penetration efficiency. We also compared these models with experiment, and we found that although the approximate model based on Murnaghan EOS had some errors compared with complete model, its predictability was still good. So, we could conclude that jet penetrating water had similar penetration efficiency with jet penetrating high compressible polymer solid materials. Therein we could expand the scope of compressible model, and we also found that jet head velocity and penetration speed were the main affecting factors of stagnation pressure.
Keywords jet penetration, water, compressible model, equation of state (EOS)
Received 21 January 2022Revised 30 March 2022Accepted 04 April 2022
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