Mechanics of Solids
A Journal of Russian Academy of Sciences

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Print ISSN 0025-6544
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    - pp.2695-2762
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Issues > Archive of Issues > 2025-4 > pp.2695-2762

Archive of Issues

Total articles in the database:		13288
In Russian (Изв. РАН. МТТ):		8164
In English (Mech. Solids):		5124

<< Previous article \| Volume 60, Issue 4 / 2025 \| Next article >>
Wu Yiding, Lu Wencheng, Yu Yilei, Ma Minghui, Sun Xinyu, and Gao Guangfa, "Penetration Mechanics of Finite-Thickness Aluminum Alloy Plates: A Review of High-Strain-Rate Behavior and Predictive," Mech. Solids. 60 (4), 2695-2762 (2025)
Year	2025	Volume	60	Number	4	Pages	2695-2762
DOI	10.1134/S0025654425601624
Title	Penetration Mechanics of Finite-Thickness Aluminum Alloy Plates: A Review of High-Strain-Rate Behavior and Predictive
Author(s)	Wu Yiding (School of Mechanical Engineering, Nanjing University of Science and Technology, Nanjing, 210094 China) Lu Wencheng (School of Mechanical Engineering, Nanjing University of Science and Technology, Nanjing, 210094 China) Yu Yilei (School of Mechanical Engineering, Nanjing University of Science and Technology, Nanjing, 210094 China) Ma Minghui (School of Mechanical Engineering, Nanjing University of Science and Technology, Nanjing, 210094 China) Sun Xinyu (School of Mechanical Engineering, Nanjing University of Science and Technology, Nanjing, 210094 China) Gao Guangfa (School of Mechanical Engineering, Nanjing University of Science and Technology, Nanjing, 210094 China, gfgao@ustc.edu.cn)
Abstract	This study investigates the ballistic performance of aluminum alloy protective plates under projectile impact, focusing on thickness effects and projectile head geometry. By analyzing high strain rate responses, it reveals the sensitivity of deformation characteristics and failure mechanisms to structural parameters. To address the challenge in describing aluminum’s unique mechanical behavior during ballistic tests, the work systematically reviews applicable constitutive models and damage criteria. Furthermore, it evaluates predictive models for ballistic limits and energy absorption, providing theoretical support for understanding aluminum alloy behavior under complex impact conditions. The synthesized modeling approaches effectively resolve prediction difficulties in high-strain-rate scenarios with multiaxial stress states.
Keywords	Aluminum alloys, Constitutive model, Damage model, Ballistic limit, Mechanical response, Failure mechanism
Received	08 April 2025	Revised	12 May 2025	Accepted	13 May 2025
Link to Fulltext	https://link.springer.com/article/10.1134/S0025654425601624
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