Scattering problems by a penny-shaped crack are solved using a time-domain boundary integral equation method, The crack is located in an infinite homogeneous, isotropic, linearly elastic solid, and is subjected to an oblique incident wave of either P-, SV-, or SH-wave, The hypersingular integral equation is solved to obtain near-field solutions as well as scattered far-fields. The accuracy of the present method is confirmed by comparing the near-field solutions for different arrangement of elements, Scattered far-fields are calculated for various incident waves, and their usefulness in quantitative non-destructive evaluation is discussed
At high frequencies, the geometrical theory of diffraction provides useful and relatively simple app...
The evaluation of integrity of critical structures and parts is of vital importance for the maintena...
In this thesis we study elastic wave scattering by thin flaws and closed cracks, which finds applica...
Scattering problems by a penny-shaped crack are solved using a time-domain boundary integral equatio...
The elastodynamic scattering by a penny-shaped crack with spring boundary conditions is investigated...
Further results are presented for the direct problem of scattering of high-frequency waves by cracks...
Cracks in NDE are often modeled as slender - shaped voids with little enclosed volume, or as cracks ...
The ultrasonic detection of cracks in the interior of an elastic solid by the use of surface transdu...
This paper is concerned with exact solutions and approximate solutions in the high-frequency domain ...
Of strong practical interest in the subject of fracture mechanics and related structural design and ...
The scattering from rough surfaces and cracks in the high frequency regime is analyzed via a scatter...
Elastodynamic wave scattering in anisotropic solids with application to ultrasonic nondestructive te...
The subject of this thesis is scattering of elastic waves from inhomogeneities in solids, with appli...
The scattering of elastic waves by cracks in isotropic and anisotropic solids has important applicat...
summary:We consider the inverse scattering of time-harmonic plane waves to reconstruct the shape of ...
At high frequencies, the geometrical theory of diffraction provides useful and relatively simple app...
The evaluation of integrity of critical structures and parts is of vital importance for the maintena...
In this thesis we study elastic wave scattering by thin flaws and closed cracks, which finds applica...
Scattering problems by a penny-shaped crack are solved using a time-domain boundary integral equatio...
The elastodynamic scattering by a penny-shaped crack with spring boundary conditions is investigated...
Further results are presented for the direct problem of scattering of high-frequency waves by cracks...
Cracks in NDE are often modeled as slender - shaped voids with little enclosed volume, or as cracks ...
The ultrasonic detection of cracks in the interior of an elastic solid by the use of surface transdu...
This paper is concerned with exact solutions and approximate solutions in the high-frequency domain ...
Of strong practical interest in the subject of fracture mechanics and related structural design and ...
The scattering from rough surfaces and cracks in the high frequency regime is analyzed via a scatter...
Elastodynamic wave scattering in anisotropic solids with application to ultrasonic nondestructive te...
The subject of this thesis is scattering of elastic waves from inhomogeneities in solids, with appli...
The scattering of elastic waves by cracks in isotropic and anisotropic solids has important applicat...
summary:We consider the inverse scattering of time-harmonic plane waves to reconstruct the shape of ...
At high frequencies, the geometrical theory of diffraction provides useful and relatively simple app...
The evaluation of integrity of critical structures and parts is of vital importance for the maintena...
In this thesis we study elastic wave scattering by thin flaws and closed cracks, which finds applica...