HAN Qingbang1,2 QIAN Menglu3
(1 Department of Computer and Information Engineering, Hehai University Changzhou 213022)
(2 Department of Information Technology, Technology Institute of Changzhou Changzhou 213002)
(3 Institute of Acoustics, Tongji University Shanghai 200092)
Received Dec. 11, 2006
Revised Mar. 3, 2007
Abstract In order to understand the viscoelasticity of material, this research had been conducted to study the propagation characteristics of viscoelastic Rayleigh wave theoretically. A model is presented for the pulsed laser generation of ultrasound on viscoelastic medium surface. Referred to the Kelvin model, the frequency equation and the normal displacement of viscoelastic wave were derived, the influence of the viscoelastic modulus on dispersion and attenuation was discussed. From the theoretical calculation, it is shown that the effect of viscoelasticity on the attenuation of Rayleigh wave is more than that on its dispersion. In the case of a weak viscosity, the attenuation of viscoelastic Rayleigh wave is directly proportional to viscosity modulus; the effect of shear viscosity on the attenuation is much more than that of bulk viscosity. The transient response of viscoelastic Rayleigh wave was also simulated using Laplace and Hankel inversion transform, which are showed in good agreement with the theoretical predictions. The model provides a useful tool for the determination of viscoelastic parameters of medium.
PACS number: 43.20, 43.40, 43.35
