Research on Impact Resistance and Failure Modes of Pyramid Sandwich Panel Subjected to Underwater Explosion

Furong LI; Jili RONG; Xi WANG; Zichao CHEN; Zhenqian WEI; Zitong ZHAO

doi:10.12382/bgxb.2022.0147

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Research on Impact Resistance and Failure Modes of Pyramid Sandwich Panel Subjected to Underwater Explosion

更新时间：2025-08-18

- Research on Impact Resistance and Failure Modes of Pyramid Sandwich Panel Subjected to Underwater Explosion
- Acta Armamentarii Vol. 44, Issue 7, Pages: 1954-1965(2023)
- 作者机构：
  
  1. 北京理工大学宇航学院, 北京 100081
  2. 北京航天发射技术研究所, 北京 100076
- 作者简介：
- 基金信息：
- DOI：10.12382/bgxb.2022.0147
  CLC：
- Received：10 March 2022，
  
  Published Online：07 August 2023，
  
  Published：30 July 2023
- 稿件说明：
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Furong LI, Jili RONG, Xi WANG, et al. Research on Impact Resistance and Failure Modes of Pyramid Sandwich Panel Subjected to Underwater Explosion[J]. Acta Armamentarii, 2023, 44(7): 1954-1965.
DOI：

Furong LI, Jili RONG, Xi WANG, et al. Research on Impact Resistance and Failure Modes of Pyramid Sandwich Panel Subjected to Underwater Explosion[J]. Acta Armamentarii, 2023, 44(7): 1954-1965. DOI： 10.12382/bgxb.2022.0147.

摘要

研究金属夹芯板在水下爆炸冲击下的动态响应和抗冲击性能

对提升舰船防护能力有重要意义。利用等效水下爆炸冲击加载实验装置对金字塔点阵夹芯板进行实验

得到其动态响应规律;结合Abaqus流-固耦合仿真对实验进行计算

结果与实验误差较小

验证了仿真的有效性

得到了金字塔夹芯板动态响应的三个阶段特征。通过后面板变形和芯层塑性吸能评估了夹芯板的抗冲击性能。针对不同参数的夹芯板

利用仿真分析了其不同的破坏模式;利用多目标优化方法对金字塔芯层参数进行优化。研究结果表明:夹芯板面板总厚度一定时

拥有较薄前面板和较厚后面板的夹芯板抗冲击性能更强;不同粗细的金字塔杆件组成的芯层破坏模式不同

但后面板变形相近;芯层的塑性吸能占比随着冲击载荷的增大而减小;优化后的夹芯板抗冲击性能显著提升

优化结果对金字塔夹芯板的设计具有指导意义。

Abstract

Studying the dynamic response and impact resistance of metal sandwich panels subjected to underwater explosion is of great significance for improving the protection capability of ships. An equivalent loading device for underwater explosion impact experiment is used for the pyramid lattice sandwich panel

and the dynamic response law of the panel is obtained. The Abaqus coupled Eulerian-Lagrangian method is adopted to calculate the impact process

and the error between the calculated results and the experimental data is small. The validity of the simulation is verified. The three-stage characteristics of the dynamic response of the pyramid sandwich panel is acquired. The impact resistance of the sandwich panel is evaluated through the deformation of the back plate and the plastic energy absorption of the core layer. The different failure modes of the sandwich panels with different parameters are analyzed by simulations. The results show that: when the total thickness of the sandwich panel is constant

the impact resistance of the sandwich panel with a thinner front panel and a thicker back panel is stronger; the failure modes of the core layer composed of pyramid rods with different thicknesses vary

but the deformations of the back panels are similar; the plastic energy absorption ratio of the core layer decreases with the increase of impact load; the multi-objective optimization method is used to optimize the parameters of the core layer. The conclusion is that the impact resistance of the optimized sandwich panel is significantly improved

and the optimization results have guiding significance for the design of pyramid sandwich panels.

关键词

Keywords

references

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