舰艇声呐围井结构变形校核及优化

Deformation Check and Optimization of the Sonar Trunk in Warships

  • 摘要: 声呐围井是声呐的工作环境,舰艇在遭受水下非接触爆炸载荷作用时,围井结构可能产生过大的变形从而影响声呐的正常工作。采用数值软件建立水面舰艇的三维有限元模型,并用整体模态对比法和局部模态对比法两种方法验证了计算模型的正确性。在此基础上,应用声固耦合法对该艇在遭受特定水下爆炸工况时的声呐围井结构的角点和围井壁进行了变形校核。文中对声呐围井结构的变形过大处采用多种优化方法,综合考虑多方面因素的影响,对比各种优化方法得出最佳的优化方案,旨在为为舰艇的声呐围井结构的设计提供参考。

     

    Abstract: The Sonar trunk is the working environment of sonar. When warship is subjected to noncontact underwater explosion, the sonar trunk will probably yield so large deformation that sonar can't work properly. In this paper, the three-dimensional finite element model of a warship is created with numerical software, and on the basis of this, when the warship is subjected to underwater explosion in a specific working condition, the deformation of the corner points and the walls of the sonar trunk are studied with the coupled acoustic-structural arithmetic. The validity of the model is verified with two methods--comparing both the total mode and the local mode. Furthermore, various means of optimization are adopted for the region where the deformation is extremely large. Taking the effects of different factors into account, through numerical calculation and comparis on, the best optimization scheme is obtained to offer a reference in the design of the sonar trunks of warships.

     

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