In this paper the secular equation for the Rayleigh wave speed in an incompressible orthotropic elastic solid is obtained in a form that does not admit spurious solutions. It is then shown that inequalities on the material constants that ensure positive definiteness of the strain–energy function guarantee existence and uniqueness of the Rayleigh wave speed. Finally, an explicit formula for the Rayleigh wave speed is obtaine
In this paper the Rayleigh wave equation has beensimplified to two simple equations, the bifurcation...
Rayleigh waves are analysed in elastic lattices incorporating inertial devices that couple in-plane ...
In this paper the equations governing small amplitude motions in a rotating transversely isotropic i...
In this paper the secular equation for the Rayleigh wave speed in an incompressible orthotropic elas...
Formulas for the speed of Rayleigh waves in orthotropic compressible elastic materials are obtained ...
Recently, a formula for the Rayleigh wave speed in an isotropic elastic half-space has been given by...
In the present paper, the equation of motion for an incompressible transversely isotropic fibre-rein...
A formula for the speed of Rayleigh waves in isotropic materials is obtained by using the theory of ...
In this paper, the governing equations of an incompressible rotating orthotropic elastic medium are ...
In this paper, the influence of anisotropy of the solid skeleton on the propagation characteristic o...
Rayleigh waves are considered for crystals possessing at least one plane of symmetry. The secular eq...
Using the methods developed by Currie (1), a corrected version is derived of the secular equation fo...
The present paper gives explicit solutions for surface waves propagation in a homogeneous half space...
The Rayleigh surface wave is studied at a stress-free thermally insulated surface of an isotropic, l...
The frequency equation of Rayleigh waves propagating over the free surface of an prestressedorthotro...
In this paper the Rayleigh wave equation has beensimplified to two simple equations, the bifurcation...
Rayleigh waves are analysed in elastic lattices incorporating inertial devices that couple in-plane ...
In this paper the equations governing small amplitude motions in a rotating transversely isotropic i...
In this paper the secular equation for the Rayleigh wave speed in an incompressible orthotropic elas...
Formulas for the speed of Rayleigh waves in orthotropic compressible elastic materials are obtained ...
Recently, a formula for the Rayleigh wave speed in an isotropic elastic half-space has been given by...
In the present paper, the equation of motion for an incompressible transversely isotropic fibre-rein...
A formula for the speed of Rayleigh waves in isotropic materials is obtained by using the theory of ...
In this paper, the governing equations of an incompressible rotating orthotropic elastic medium are ...
In this paper, the influence of anisotropy of the solid skeleton on the propagation characteristic o...
Rayleigh waves are considered for crystals possessing at least one plane of symmetry. The secular eq...
Using the methods developed by Currie (1), a corrected version is derived of the secular equation fo...
The present paper gives explicit solutions for surface waves propagation in a homogeneous half space...
The Rayleigh surface wave is studied at a stress-free thermally insulated surface of an isotropic, l...
The frequency equation of Rayleigh waves propagating over the free surface of an prestressedorthotro...
In this paper the Rayleigh wave equation has beensimplified to two simple equations, the bifurcation...
Rayleigh waves are analysed in elastic lattices incorporating inertial devices that couple in-plane ...
In this paper the equations governing small amplitude motions in a rotating transversely isotropic i...