国防科技大学学报

引用本文:	金键,侯海量,陈鹏宇,等.水下接触爆炸下液舱前置型防雷舱的动响应分析.[J].国防科技大学学报,2018,40(3):142-147.[点击复制]
	JIN Jian,HOU Hailiang,CHEN Pengyu,et al.Dynamic responses analysis of pre-liquid cabin of multi-layered protective structure subjected to underwater contact explosions[J].Journal of National University of Defense Technology,2018,40(3):142-147[点击复制]

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水下接触爆炸下液舱前置型防雷舱的动响应分析

金键¹, 侯海量¹, 陈鹏宇¹, 黄晓明², 吴林杰¹, 朱锡¹

(1. 海军工程大学舰船与海洋学院，湖北武汉 430033;2. 中国人民解放军91189部队，江苏连云港 222041)

摘要:

为探讨防雷舱结构设计，采用有限元方法对同一防雷舱结构的典型模式和液舱前置模式进行数值仿真计算，通过对典型模式与实验结果的对比，验证了数值计算方法的有效性。着重分析了液舱前置对防雷舱结构动响应过程、失效模式及防护效能的影响，并分析了其形成机制。从结构破坏过程、载荷特性、吸能特性三个方面对比了两种模式的差异，探讨了两种模式防雷舱结构的防护机理，为舰船水下舷侧防护结构的工程设计提供了参考。

关键词: 防雷舱水下接触爆炸液舱前置动响应失效模式

DOI：10.11887/j.cn.201803022

投稿日期：2017-04-13

基金项目:国家自然科学基金资助项目（51479204，51409253，51679246）

Dynamic responses analysis of pre-liquid cabin of multi-layered protective structure subjected to underwater contact explosions

JIN Jian¹, HOU Hailiang¹, CHEN Pengyu¹, HUANG Xiaoming², WU Linjie¹, ZHU Xi¹

(1. College of Naval Architecture and Ocean Engineering, Naval University of Engineering, Wuhan 430033, China;2. The PLA Unit 91189, Lianyungang 222041, China)

Abstract:

In order to probe into the design of multi-layered protective structure, the finite element method was used to simulate the typical mode and the pre liquid cabin mode of the same multi-layered protective structure, and the validity of numerical simulation method was verified by comparison of the typical mode and experimental results. The influences of the pre-liquid cabin mode on the dynamic response process, the failure mode and the protective efficiency of the multi-layered protective structure were analyzed specifically, and its forming mechanism was analyzed. The differences between the two modes were compared from the following three aspects: the structure failure process, the load characteristics and the energy absorption characteristics. Finally, the protective mechanism of multi-layered protective structure is discussed, which provides a reference for the engineering design of underwater broadside protection structure of surface vessels.

Keywords: multi-layered protective structure underwater contact explosion pre-liquid cabin dynamic responses failure mode