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朱翔 李天匀 赵耀 刘敬喜. 含环向表面裂纹圆柱壳的波传播特性研究[J]. 力学学报, 2007, 23(1): 119-124. DOI:10.6052/0459-1879-2007-1-2005-560
引用本文: 朱翔 李天匀 赵耀 刘敬喜. 含环向表面裂纹圆柱壳的波传播特性研究[J]. 力学学报, 2007, 23(1): 119-124.DOI:10.6052/0459-1879-2007-1-2005-560
Xiang Zhu, Tianyun Li, Yao Zhao, Jingxi Liu. Wave propagation characteristics of cylindrical shells with circumferential surface crack[J]. Chinese Journal of Theoretical and Applied Mechanics, 2007, 23(1): 119-124. DOI:10.6052/0459-1879-2007-1-2005-560
Citation: Xiang Zhu, Tianyun Li, Yao Zhao, Jingxi Liu. Wave propagation characteristics of cylindrical shells with circumferential surface crack[J].Chinese Journal of Theoretical and Applied Mechanics, 2007, 23(1): 119-124.DOI:10.6052/0459-1879-2007-1-2005-560

含环向表面裂纹圆柱壳的波传播特性研究

Wave propagation characteristics of cylindrical shells with circumferential surface crack

  • 摘要:研究了振动波在含有环向表面裂纹的无限长圆柱壳中的传播特性. 圆柱壳体的振动用Fl\"ugge方程来描述. 运用线弹性断裂力学的理论,考虑到裂纹的张开、滑移和撕裂3种模式以及它们相互之间的耦合,利用分布的线弹簧来模拟裂纹并建立了裂纹所在区域的局部柔度矩阵,得到由此引起的附加位移和壳体中内力之间的关系. 在入射波已知的情况下,根据裂纹两侧区域的位移和内力的连续性条件得到了反射和透射波的幅值系数. 分析了入射波通过裂纹后的透射、反射系数与激励频率和裂纹尺寸之间的关系. 为基于振动功率流方法识别圆柱壳表面损伤提供了理论基础.

    Abstract:In this paper, thewave propagation characteristics of infinite cylindrical shells withcircumferential surface crack are investigated. The vibration of thecylindrical shell is described by Fl\"ugge's shell equations and the wavepropagation approach is used to solve the equations. Inconsideration of the crack's three modes: opening, sliding and tearingmodes andtheir combinations, the surface crack is modeled by distributed line springs.The local compliance matrix at the cracked region is then deduced by usinglinear elastic fracture mechanics, and the relationships between theadditional general displacements and the general forces are obtained. To verify the accuracy of the theoretical model and the wavepropagation method proposed, the axisymmetric free vibration of a finiteshell with a circumferential surface crack is investigated first, thenatural frequencies of the finite cracked shell are calculated by usingtheanalytical method and finite element method, respectively. The resultsbetween the two methods show a good agreement. Then an infinite shell with acircumferential surface crack is investigated. For a given incident wave,the amplitudes of the reflected wave and transmitted wave are obtainedaccording to the continuity conditions of displacements and inner forcesat both sides of the crack. The relationships between the transmitted wavecoefficient and the crack's depth as well as the frequency areobtained. The numerical results indicate that the existence of the crackchanges the vibration wave in the shell substantially and the amplitudes ofthe transmitted wave and reflected wave are closely related to the crack'sdepth and the frequency. The results also show that the coefficients ofthe transmitted wave decrease with the increase of the crack's depth. Thisresearch provides a theoretical basis for the further crack detection incylindrical shells based on the vibration method.

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