Chen Jiu-Jiu, Bonello Bernard, Hou Zhi-Lin
Institut des NanoSciences de Paris, CNRS (UMR 7588), Université Pierre et Marie Curie, 140 rue de Lourmel, 75015 Paris, France.
Phys Rev E Stat Nonlin Soft Matter Phys. 2008 Sep;78(3 Pt 2):036609. doi: 10.1103/PhysRevE.78.036609. Epub 2008 Sep 25.
We have computed the dispersion curves of plate-mode waves propagating in periodic composite structures composed of isotropic aluminum cylinders embedded in an isotropic nickel background. The phononic crystal has a square symmetry and the calculation is based on the plane-wave expansion method. Along GammaX or GammaM directions, shear-horizontal modes do not couple to the Lamb wave modes which are polarized in the sagittal plane. Whatever the direction of propagation in between GammaX and GammaM, shear-horizontal modes convert to Lamb waves and couple with the flexural and dilatational modes. This phenomenon is demonstrated both through the mode splitting in the lower-order symmetric band structure and through the calculation of all three components of the particle displacements. The phononic case is different from the pure isotropic plate case where shear-horizontal waves decouple from Lamb waves whatever the direction of propagation.
我们计算了在由嵌入各向同性镍背景中的各向同性铝圆柱体组成的周期性复合结构中传播的板模波的色散曲线。该声子晶体具有四方对称性,计算基于平面波展开法。沿着ΓX或ΓM方向,水平剪切模式不会与在矢状面内极化的兰姆波模式耦合。无论在ΓX和ΓM之间的传播方向如何,水平剪切模式都会转换为兰姆波,并与弯曲模式和膨胀模式耦合。这种现象通过低阶对称能带结构中的模式分裂以及通过计算粒子位移的所有三个分量得到了证明。声子情况与纯各向同性板的情况不同,在纯各向同性板中,无论传播方向如何,水平剪切波都与兰姆波解耦。