负泊松比内凹蜂窝圆柱壳水下抗冲击响应研究

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负泊松比内凹蜂窝圆柱壳水下抗冲击响应研究
Research on underwater impact responses of re-entrant honeycomb cylindrical shell with negative poisson′s ratio

DOI:

作者:: 张翼¹, 余胜², 刘加一², 何红萱², 张涛²
ZHANG Yi¹, YU Sheng², LIU Jia-yi², HE Hong-xuan², ZHANG Tao²

作者单位:: 1. 中国舰船研究设计中心，湖北武汉 430064;
2. 华中科技大学船舶与海洋工程学院，湖北武汉 430074
1. China Ship Design and Development Center, Wuhan 430064, China;
2. School of Naval Architecture and Ocean Engineering, Huazhong University of Science and Technology, Wuhan 430074, China

关键词:: 水下爆炸;声固耦合法;内凹蜂窝圆柱壳;抗冲击响应
underwater explosion; acoustic-structure coupling method; re-entrant honeycomb cylindrical shell; anti-impact responses

摘要:: 基于Abaqus声固耦合法对水下爆炸工况下，负泊松比内凹蜂窝圆柱壳的抗冲击性能进行研究。主要分析双层圆柱壳外壳、内壳和肋板的最大变形、等效塑性应变、动能和内能结果，讨论了不同肋板间距工况对双层圆柱壳抗冲击响应的影响。结果表明，在肋板总重一定条件下，增大肋板间距、增大肋板宽度、减少肋板数量，外壳最大变形、等效塑性应变、动能、内能呈增大趋势；内壳和肋板最大变形、等效塑性应变、动能、内能呈减小趋势。
The underwater impact responses of re-entrant negative Poisson's ratio honeycomb cylindrical shell were simulated based on the acoustic-structure coupling method in Abaqus. The maximum deformation, equivalent plastic strain, kinetic energy and internal energy of the outer shell, inner shell and ribs of the double-layer cylindrical shell were analyzed. The effects of distance of ribs on the anti-impact responses of the double-layer cylindrical shell were discussed. With a certain total weight of ribs, increasing the distance and width of ribs, and reducing number of ribs, the maximum deformation, equivalent plastic strain, kinetic energy and internal energy of the outer shell showed an increasing trend. However, the maximum deformation, equivalent plastic strain, kinetic energy and internal energy of the inner shell and ribs showed a decreasing trend.

2023,45(21): 1-7 收稿日期：2022-11-1

DOI：10.3404/j.issn.1672-7649.2023.21.001

分类号：U674.7+03.7

作者简介：张翼（1986-），男，硕士，高级工程师，研究方向为海洋动力工程

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负泊松比内凹蜂窝圆柱壳水下抗冲击响应研究 Research on underwater impact responses of re-entrant honeycomb cylindrical shell with negative poisson′s ratio

负泊松比内凹蜂窝圆柱壳水下抗冲击响应研究
Research on underwater impact responses of re-entrant honeycomb cylindrical shell with negative poisson′s ratio