共查询到17条相似文献,搜索用时 234 毫秒
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从结构噪声的观点,对在集中力作用下的损伤梁进行了振动功率流研究,损伤部位模拟为转动弹簧,利用断裂力学的有关理论得到其转动刚度。分析了损伤梁的弯曲波运动以及振动功率流的输入和传播,结果表明振动功率流与损伤位置及其特征尺寸是相关联的,本研究为基于振动功率流方法的损伤诊断打下了理论基础。 相似文献
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基于有限元功率流理论,对L型板振动传递特性进行研究。对比导纳功率流法计算得到的输入功率和传递功率,两者计算结果吻合得比较好,证明方法是可行、准确的。提出了评价L型板振动传递的指标功率流传递率,从而定量描述L型板通过耦合边传递振动的能力。同时,给出功率流云图,直观得到能量在L型板中流动情况,并将功率流可视化技术应用到复杂的舱段结构中。本文处理方法对工程实际中复杂结构具有一定的通用性,可以为结构振动控制设计阶段提供一定的帮助。 相似文献
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WANGSan-de YANGDe-sen SHISheng-guo FANGEr-zheng 《船舶与海洋工程学报》2005,4(1):54-59
In this paper, the vibration and sound radiation of the underwater complex shell-structure which is the cylindrical shell with hemi-spherical shell on the ends are studied by statistical energy analysis (SEA). The whole shell-structure is divided into the four subsystems, and the SEA physical model and power flow balance equations among these subsystems are established. The similitude relations of input power, coupling loss factor and modal density of the subsystems between the complex shell-structure and its scaled-down model are analyzed. According to the similitude theory and power flow balance equations, when the immerged shell-structures are excited, the similar relations of spatially averaged vibration response and underwater radiating sound power are established for the complex shell-structure and its scaled-down model. 相似文献
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为研究水下双层圆柱壳结构全频段声振特性,基于VA-ONE建立了FE-BEM混合法、FE-SEA混合法及SEA法3种不同的计算模型,进行了不同辐射介质中辐射声功率及外壳振速的计算,并进一步研究了内外壳及肋板厚度、约束条件、激励位置及层间流体对双层圆柱壳声辐射特性的影响;基于FE-BEM混合法研究了圆柱壳结构的声散射特性;研究了肋板在结构振动能量传递中的作用,提出了2种阻尼肋板的减振降噪方案并进行相关仿真分析.结果表明:重流体能够抑制结构的振动,但由于重流体声阻抗较大,结构的辐射声功率变大;结构声散射曲线在某些频率处出现峰值,且峰值频率与结构自身的固有特性有关;阻尼肋板能得到较好的减振降噪效果,工程上建议使用金属聚氨酯阻尼肋板. 相似文献
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A numerical and experimental study was presented on active control of structurally radiated sound from an elastic cylindrical shell.An analytical model was developed for the active structural acoustic control (ASAC) of the cylindrical shell.Both global and local control strategies were considered.The optimal control forces corresponding to each control strategy were obtained by using the linear quadratic optimal control theory.Numerical simulations were performed to examine and analyze the control performance under different control strategies.The results show that global sound attenuation of the cylindrical shell at resonance frequencies can be achieved by using point force as the control input of the ASAC system.Better control performance can be obtained under the control strategy of minimization of the radiated sound power.However,control spillover may occur at off-resonance frequencies with the control strategy of structural kinetic energy minimization in terms of the radiated sound power.Considerable levels of global sound attenuation can also be achieved in the on-resonance cases with the local control strategy,i.e.,minimization of the mean-square velocity of finite discrete locations.An ASAC experiment using an FXLMS algorithm was implemented,agreement was observed between the numerical and experimental results,and successful attenuation of structural vibration and radiated sound was achieved. 相似文献