Ballistic Performance Analysis and Optimization of the Stacked Composite Armor

ZHANG Yanling; WANG Kun; LI Xu; CHENG Yuansheng; ZHANG Pan

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Ballistic Performance Analysis and Optimization of the Stacked Composite Armor

更新时间：2025-12-25

- Ballistic Performance Analysis and Optimization of the Stacked Composite Armor
- Acta Armamentarii (2025)
- 作者机构：
  
  1. 华中科技大学船舶与海洋工程学院,湖北,武汉,430073
  2. 中国船舶及海洋工程设计研究院
  3. 武汉第二船舶设计研究所
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张艳玲, 王坤, 李旭, 程远胜, 张攀. 叠层式复合装甲结构抗弹性能分析与优化设计研究[J]. 兵工学报,

ZHANG Yanling, WANG Kun, LI Xu, et al. Ballistic Performance Analysis and Optimization of the Stacked Composite Armor[J/OL]. Acta Armamentarii, 2025.
张艳玲, 王坤, 李旭, 程远胜, 张攀. 叠层式复合装甲结构抗弹性能分析与优化设计研究[J]. 兵工学报, DOI：

ZHANG Yanling, WANG Kun, LI Xu, et al. Ballistic Performance Analysis and Optimization of the Stacked Composite Armor[J/OL]. Acta Armamentarii, 2025. DOI：

摘要

为了更好地满足舰船重要舱室防护结构的承载和抗弹要求，提出一种由聚脲包裹陶瓷、超高分子量聚乙烯层合板和格栅型夹层结构组成的叠层式复合装甲结构，分析其在不同弹体入射速度下毁伤响应特征，开展结构优化设计。构建叠层式复合装甲结构弹道响应数值模型和弹道极限速度快速预报模型，开展结构参数与叠层式复合装甲结构抗性能相关性分析，最后采用改进的非支配排序遗传算法（Non-dominated Sorting Genetic Algorithm，NSGA-II）对结构参数进行优化。研究结果表明：弹道极限速度与陶瓷层厚度的相关性最强，面密度与夹层结构上下面板厚度的相关性最强。对比初始方案，优化方案能够在相同面密度的前提下使弹道极限速度提升24.1%，或在相同弹道极限速度的前提下使面密度降低19.8%；于Kriging代理模型和NSGA-II算法对叠层式复合装甲进行结构优化设计的方法有效可行。研究结果为复合装甲的结构设计和优化提供了的依据和实践参考。

Abstract

In order to better meet the load-bearing and ballistic performance for the protective structures of key compartments of ships

a staggered composite armor composed of polyurea-coated ceramic

UHMWPE(Ultra-high molecular weight polyethylene) laminates and grid sandwich core was proposed. The damage characteristics under different projectile impact velocities were analyzed

and the structural optimization was carried out. A numerical model for the ballistic response of the staggered composite armor structure was constructed

and a surrogate model for the ballistic resistance of the stacked composite armor was established and tested. Then correlation analyses were conducted among structural design parameters

residual velocity

and areal density. Finally

the structural parameters of the composite armor are optimized based on the NSGA-II（Non-dominated Sorting Genetic Algorithm） multi-objective genetic optimization algorithm. The ballistic limit velocity exhibited the strongest correlation with ceramic layer thickness

while areal density was most sensitive to the thickness of the sandwich face panels. Compared to the initial design

the optimized design can increase the ballistic limit velocity by 24.1% under the same areal density

or reduce the areal density by 19.8% under the same ballistic limit velocity. The proposed methodology integrating Kriging surrogate model and NSGA-II algorithm is feasible for optimization of stacked composite armor. The findings provide practical insights for structural optimization of composite armor.

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