粘弹性夹杂功能梯度层合板的水下吸声性能及其计算方法研究

项目名称： 粘弹性夹杂功能梯度层合板的水下吸声性能及其计算方法研究

项目编号： No.51209185

项目类型： 青年科学基金项目

立项/批准年度： 2013

项目学科： 水利科学与海洋工程学科

项目作者： 梁旭

作者单位： 浙江大学

项目金额： 25万元

中文摘要： 夹杂和功能梯度两种结构分别代表了水下吸声材料在吸声机理和阻抗匹配的发展方向。提出了一种兼顾机理与功能的粘弹性夹杂功能梯度水下吸声结构。针对水下吸声领域和粘弹性夹杂功能梯度层合板的特点，围绕"不同温度条件下夹杂功能梯度材料的粘弹性本构及均匀化方法"和"考虑流固耦合条件下功能梯度层合板的动力响应计算方法"两个关键科学问题展开研究：1采用蠕变试验拟合不同温度条件下聚氨酯基体和粘结剂的Burgers粘弹性本构模型；2基于广义自洽Mori-Tanaka均匀化和代表性体积元方法预测夹杂功能梯度材料的粘弹性常数；3结合Laplace逆变换和Peano-Baker级数方法建立可以计算瞬态荷载作用下任意分布功能梯度层合板动力响应的状态空间方法，建立考虑流固耦合且含粘弹性弱界面的层合板的动力响应计算方法；4提出基于能量的吸声减振性能评价指标，研究吸声减振机理；5开展水声驻波管试验，并验证解析计算结果。

中文关键词： 瞬态响应；Laplace逆变换；状态空间法；微分求积方法；复合结构

英文摘要： The multiphase inclusions and the functionally graded materials (FGM) are the directions of future for sound absorption and impedance matching, respectively. A new type of multiphase inclusion FGM is developed to give consideration to both sound absorption and impedance matching. According to the features of sound absorption and that of viscoelastic multiphase inclusion FGM, researches are carried out on the two key scientific problems, which are "the viscoelastic constitutive relation and the homogenization method for multiphase inclusion FGM under different temperature conditions" and "the computation method for the dynamic response of FGM laminated plates while considering the fluid-solid interaction (FSI)". 1 The creep test are performed, and the Burgers viscoelastic constitutive parameters are obtained by fitting the experiment datas. 2 The viscoelastic constants of the multiphase inclusions FGM are forecasted by the generalized self-consistent Mori-Tanaka homogenization method and the representative volume element method. 3 Based on the numerical inversion of Laplace transform and the Peano-Baker series method, a new state-space method is develop for the transient responses of FGM laminated plates with arbitrary gradient. Considering the FSI, a state-space method for the laminated plate with a weak interfa

英文关键词： transient response；inversion of Laplace transform；state space method；differential quadrature method；composite structures