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作 者:何存富[1] 刘宏业[1] 刘增华[1] 吴斌[1]
出 处:《固体力学学报》2013年第1期55-62,共8页Chinese Journal of Solid Mechanics
基 金:国家自然科学基金项目(51235001;50975006;11272021);北京市自然科学基金(1122007);北京市科技新星计划项目(2008A015)资助
摘 要:基于线性三维弹性理论,采用勒让德正交多项式展开法,推导了波沿正交各向异性材料非主轴方向传播时的Lamb波耦合波动方程,并对耦合波动方程进行了数值求解.为验证该方法的适用性和正确性,首先将此方法应用于各向同性材料,并与已知的数据结果进行了比较;然后以单向纤维增强复合材料为例,计算了耦合Lamb波沿不同的非主轴方向传播时的相速度频散曲线,并分别研究了传播方向改变时低阶模态Lamb波和高阶模态Lamb波频散特性的变化.最后,针对潜在用于各向异性复合材料结构健康监测的耦合Lamb波低阶模态,给出了其在不同传播方向时的相速度分布和群速度分布.同时,结合低阶模态Lamb波的位移分布特性和材料的各向异性特点,阐释了S0模态对波的传播方向变化最为敏感的原因.Based on linearly three-dimensional elasticity, the wave motion equations for coupled Lamb waves which propagate along non-principal directions of the material are derived by using a Legendre orthogonal polynomial approach,and the coupled equations of wave motion are solved numerically. For verifying its applicability and validity,the present approach is applied to isotropic material and obtained results are compared with existing results. Then,the phase dispersion curves of coupled Lamb waves along differ-ent non-principal directions are calculated,and the effects of the different propagation directions on fundamental modes and high-order modes are investigated. Finally, the distributions of phase and group velocities of fundamental modes are shown respectively,which are useful for structural health monitoring of anisotropic materials. Simultaneously, the reason that So mode is the most sensitive to the change of the propagation direction is illustrated with both displacement distribution of fundamental modes and material's anisotropy property being considered.
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