TY - JOUR
ID - 514354
TI - Effect of Rotation and Stiffness on Surface Wave Propagation in a Elastic Layer Lying Over a Generalized Thermodiffusive Elastic Half-Space with Imperfect Boundary
JO - Journal of Solid Mechanics
JA - JSM
LA - en
SN - 2008-3505
AU - Kumar, R
AU - Chawla, V
AD - Department of Mathematics, Kurukshetra University
Y1 - 2010
PY - 2010
VL - 2
IS - 1
SP - 28
EP - 42
KW - Isotropic
KW - Generalized thermoelastic diffusion
KW - Stiffness
KW - Phase velocity
KW - Attenuation coefficient
KW - Amplitude
KW - Rotation
KW - Specific loss
DO -
N2 - The present investigation is to study the surface waves propagation with imperfect boundary between an isotropic elastic layer of finite thickness and a homogenous isotropic thermodiffusive elastic half- space with rotation in the context of Green-Lindsay (G-L model) theory. The secular equation for surface waves in compact form is derived after developing the mathematical model. The phase velocity and attenuation coefficient are obtained for stiffness and then deduced for normal stiffness, tangential stiffness and welded contact. The dispersion curves for these quantities are illustrated to depict the effect of stiffness and thermal relaxation times. The amplitudes of displacements, temperature and concentration are computed at the free plane boundary. Specific loss of energy is obtained and presented graphically. The effects of rotation on phase velocity, attenuation coefficient and amplitudes of displacements, temperature change and concentration are depicted graphically. Some Special cases of interest are also deduced and compared with known results.
UR - http://jsm.iau-arak.ac.ir/article_514354.html
L1 - http://jsm.iau-arak.ac.ir/article_514354_5611efd0659aa849e2c3d0d9c8d4c2ba.pdf
ER -