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Parallel Computing of the Underwater Explosion Cavitation Effects on Full-scale Ship Structures 被引量:7

Parallel Computing of the Underwater Explosion Cavitation Effects on Full-scale Ship Structures
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摘要 As well as shock wave and bubble pulse loading, cavitation also has very significant influences on the dynamic response of surface ships and other near-surface marine structures to underwater explosive loadings. In this paper, the acoustic-structure coupling method embedded in ABAQUS is adopted to do numerical analysis of underwater explosion considering cavitation. Both the shape of bulk cavitation region and local cavitation region are obtained, and they are in good agreement with analytical results. The duration of reloading is several times longer than that of a shock wave. In the end, both the single computation and parallel computation of the cavitation effect on the dynamic responses of a full-scale ship are presented, which proved that reloading caused by cavitation is non-ignorable. All these results are helpful in understanding underwater explosion cavitation effects.
作者 Zhi Zong Yanjie Zhao Fan Ye Haitao Li Gang Chen
机构地区 School of Naval Architecture Engineering Marine Design & Research Institute of China
出处 《Journal of Marine Science and Application》 2012年第4期469-477,共9页 船舶与海洋工程学报(英文版)
基金 Foundation item:Supported by the National Natural Science Foundation of China (Grant No. 50921001), National Key Basic Research Special Foundation of China (Grant No. 2010CB832704), Scientific Project for High-tech Ships: Key Technical Research on the Semi-planning Hybrid Fore-body Trimaran, Doctoral Research Foundation of Liaoning Province (Grant No. 20091012).
关键词 underwater explosion CAVITATION parallel computation full-scale ship 水下爆炸 并行计算 气蚀 船舶结构 ABAQUS 空化效应 动态响应 脉动载荷
分类号 O346.1 [理学—固体力学] TV542.5 [理学—力学]
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参考文献16

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Journal of Marine Science and Application
2012年 第4期

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