层状压电结构中超声导波的非线性效应研究

项目名称： 层状压电结构中超声导波的非线性效应研究

项目编号： No.11274388

项目类型： 面上项目

立项/批准年度： 2013

项目学科： 数理科学和化学

项目作者： 邓明晰

作者单位： 中国人民解放军后勤工程学院

项目金额： 87万元

中文摘要： 开展层状压电结构中超声导波非线性效应的理论和实验研究具有重要的理论和实际意义。本项目在深入研究力-电耦合条件下应力及电位移矢量的非线性本构关系的基础上，建立层状压电结构中超声导波二次谐波的模式展开方程并给出其解析解。理论上深入研究弹性、压电和介电等非线性与超声导波二次谐波发生效应之间的相互作用关系，理论和实验上深入研究层状压电结构复杂的各向异性和导波的色散特性对二次谐波发生效应所产生的影响，以及力学和电学边界条件与二次谐波发生效应的内在联系，并探索一种以改变界面或表面电学边界条件的方式调控超声导波二次谐波发生效率的方法或途径。通过本项目的立项研究，可深刻理解与把握力-电耦合条件下超声导波二次谐波发生效应的物理过程及其传播规律，可深入了解层状压电结构的多种非线性、复杂的各向异性以及力学尤其是电学边界条件等因素与超声导波二次谐波发生效应之间的内在联系，进而为相关的应用研究奠定理论和实验基础。

中文关键词： 层状压电结构；超声导波；非线性效应；力学及电学边界条件；各向异性

英文摘要： It is of significance in theory and application to perform the theoretical and experimental studies of nonlinear effects of ultrasonic guided waves propagating in layered piezoelectric structures. Under the condition that the mechanical-electrical coupling is taken into account, in the present project, the modal expansion equation of the second harmonic of ultrasonic guided wave propagation in layered piezoelectric structures will be established, and its analytical solution will be presented, based on the in-depth studies of the nonlinear constitutive relationships of stress and electrical displacement in piezoelectric materials. The interaction relationship of the nonlinearities of elasticity, piezoelectricity and dielectricity to the effect of second-harmonic generation of ultrasonic guided wave propagation will be investigated theoretically. The influence of the complicated anisotropy of layered piezoelectric structures as well as the guided wave dispersion on the effect of second-harmonic generation will be studied theoretically and experimentally. Moreover, the internal relationship of the mechanical and electrical boundary conditions to the effect of second-harmonic generation of ultrasonic guided wave propagation will be investigated theoretically and experimentally. Whereafter, an approach or means of re

英文关键词： Layered piezoelectric structure；Ultrasonic guided wave；Nonlinear effect；Mechanical and electrical boundary conditions；Anisotropy