水下无人系统学报2026,Vol.34Issue(2):264-272,9.DOI:10.11993/j.issn.2096-3920.2025-0161
水下轴-锥-柱双层壳振动传递路径及特性分析
Vibration Transfer Path and Characteristic Analysis of Underwater Shaft-Cone-Cylinder Double-Layer Shell
摘要
Abstract
To investigate the vibration transmission characteristics of the underwater shaft-cone-cylinder double-layer shell structure,a fluid-solid coupling finite element model was constructed based on the HyperMesh-ANSYS co-simulation platform,so as to simulate the full-process dynamic behavior of shaft excitation,bearing transmission,shell,and liquid coupling.The effects of interhull fluid density,bearing stiffness,and internal and external fluids of the shell on structural vibration transfer were systematically analyzed.The results show that the interhull liquid reduces the resonance frequency of the system through the added mass effect and enhances the sound pressure level through the fluid-solid coupling effect.The increase in bearing stiffness can suppress the shaft system vibration but excites the high-frequency resonance of the shell.In the low-frequency band,the strong continuity of the interhull liquid enhances the vibration transmission between the double-layer shells,while the additional mass and damping effects block the vibration transmission in the high-frequency band.This study reveals the vibration transfer effect of the underwater shaft-cone-cylinder double-layer shell model and provides theoretical support for the acoustic vibration design and vibration and noise reduction optimization of undersea vehicles.关键词
水下航行器/轴-锥-柱双层壳/舷间液/振动传递路径/流固耦合Key words
undersea vehicle/shaft-cone-cylinder double-layer shell/interhull liquid/vibration transfer path/fluid-solid coupling分类
军事科技引用本文复制引用
朱景瑶,张聪,田亚奇..水下轴-锥-柱双层壳振动传递路径及特性分析[J].水下无人系统学报,2026,34(2):264-272,9.基金项目
国家自然科学基金资助项目(51839005). (51839005)
