一种反舰导弹打击下补给船目标的易损性分析方法OA北大核心CSTPCD
Vulnerability analysis method for supply ship targets under anti-ship missile strikes
[目的]针对目前在舰船目标易损性分析方法研究方面的迫切需求,提出一种反舰导弹打击下补给船目标的易损性分析方法.[方法]以某典型补给船为攻击目标,选择反舰导弹作为攻击武器,分析目标的构效关系.通过数值模拟得到反舰导弹内爆载荷作用下补给船的动态响应,研究反舰导弹内爆载荷作用下关键部件的毁伤破坏及毁伤判据,得到补给船功能的毁伤程度.对补给船目标易损性进行分析,判断使其航行功能造成最大程度毁伤的攻击方法.[结果]形成了从目标构效关系分析、关键部件毁伤模式、毁伤准则与判据,到目标功能毁伤程度的易损性分析方法的流程.根据目标易损性分布信息,得出瞄准非冗余部件集中的位置进行打击可起到最强的攻击效果.[结论]可为舰船目标易损性的研究提供技术支撑,辅助决策火力筹划.
[Objective]Aiming at the urgent need for research on vulnerability analysis methods for ship tar-gets,a vulnerability analysis method for supply ship targets under anti-ship missile strikes is proposed.[Methods]Taking a typical supply ship target as the research object,anti-ship missiles are selected as the strike weapon,and the structure-activity relationship of the target is analyzed.The dynamic response of a sup-ply ship under the action of anti-ship missile internal explosion load is obtained through numerical simulation.The damage and damage criteria of key components under the action of anti-ship missile internal explosion load are studied,and the function damage degree of the supply ship is obtained.The target vulnerability of the supply ship is analyzed,and the attack method that causes the maximum damage to its navigation function is determined.[Results]A vulnerability analysis method flow is formed which includes an analysis of target structure-activity relationships,damage modes of key components,damage criteria and degree of target func-tional damage.Based on the vulnerability distribution information,the target should be targeted at the location where non-redundant components are concentrated,achieving the goal of causing maximum range damage.[Conclusion]The findings of this study can provide technical support for future research on ship target vul-nerability.
董泽恒;李翔宇;陈高杰
中国人民解放军 91388 部队,辽宁 大连 116041||国防科技大学 理学院,湖南 长沙 410073国防科技大学 理学院,湖南 长沙 410073中国人民解放军 91388 部队,辽宁 大连 116041
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反舰导弹内爆载荷补给船功能毁伤程度易损性分析方法火力筹划
anti-ship missileinternal explosion loadsupply shipfunctional destruction degreevulner-ability analysis methodfirepower planning
《中国舰船研究》 2024 (003)
166-173 / 8
国家自然科学基金资助项目(12172380);全军军事类研究生资助课题(JY2021C073)
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