水下接触爆炸下多舱防护结构载荷特性及动响应研究进展
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摘要
为探究水下接触爆炸载荷对大型舰船水下舷侧多舱防护结构毁伤的研究进展,从水下接触爆炸下多舱防护结构载荷特性及结构动响应2个方面综述国内外研究现状。对水下接触爆炸产生的冲击波载荷、复杂边界条件下的气泡载荷及高速破片侵彻液舱引起的冲击波载荷的研究现状进行综述;同时对水下接触爆炸下多舱防护结构的舷侧外板结构(背空板)、液舱结构及夹芯结构的响应研究现状分别进行综述。总结国内外学者对相关问题的研究成果,指出目前研究工作中存在的盲点,提出需要进一步研究和解决的问题,旨在为多舱防护结构的研究、设计和优化工作提供参考。
In order to explore research progress into damage to multicamerate defense structures caused bycontact underwater explosion, the present situation of domestic and overseas research is summarized in thetwo aspects of load characteristics and structural dynamic response. The research status of three typicalloads are summarized: shock load caused by contact underwater explosion, bubble load under complicatedboundary and shock load caused by the high-speed penetration of a liquid tank. At the same time, theresearch status of three typical structural dynamic responses are summarized: side plate, liquid tank andsandwich structure. The research results of domestic and foreign scholars on related issues are summarized,existing blind spots in the research content identified and problems requiring solutions put forward. Thispaper provides references for the design and optimization of multicamerate defense structures.
In order to explore research progress into damage to multicamerate defense structures caused bycontact underwater explosion, the present situation of domestic and overseas research is summarized in thetwo aspects of load characteristics and structural dynamic response. The research status of three typicalloads are summarized: shock load caused by contact underwater explosion, bubble load under complicatedboundary and shock load caused by the high-speed penetration of a liquid tank. At the same time, theresearch status of three typical structural dynamic responses are summarized: side plate, liquid tank andsandwich structure. The research results of domestic and foreign scholars on related issues are summarized,existing blind spots in the research content identified and problems requiring solutions put forward. Thispaper provides references for the design and optimization of multicamerate defense structures.
引文
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