Guided waves, i.e., ultrasonic wave packets propagating in the longitudinal direction, are a promising technique for rapid long-range nondestructive inspection of bar-like structures such as pipes and rails. Guided wave inspection requires determining guided wave velocities (dispersion curves) and wave structures. A computational technique is available to obtain the dispersion curves and wave structures for structures with complex cross-sections. This study develops a more accurate technique using the mirror relation of guided wave modes and an iteration method for solving the eigenproblem. Experimental studies of a JIS 6-kg rail verify that dispersion curves and wave structures can be obtained with sufficient accuracy for typical out-of-pl...
Guided ultrasonic waves provide a highly efficient method for the non-destructive evaluation (NDE) a...
Guided waves travel in plates and hollow cylinders over large distances and propagate with multiple ...
The cross-sectional geometry of a rail is complex, and numerous guided wave modes can be propagated ...
Both dispersion curves and wave structures, which are displacement distributions on a bar cross-sect...
Theoretical and experimental issues of acquiring dispersion curves for bars of arbitrary cross-secti...
The cross-section of a rail has a complex geometry, and there are many propagating modes of ultrason...
This paper gives insight to the ultrasonic wave propagation in arbitrary cross-section waveguides su...
Many commercial guided wave pipe inspection techniques use an axisymmetric torsional mode T(0, 1) as...
Guided wave inspection has been expected as a Guided wave inspection has been expected as a promisin...
In order to monitor the rail base, the dispersion characteristics and propagation properties of the ...
Ultrasonic guided wave (UGW) has shown great potential in the field of structural health monitoring ...
The analysis of guided wave propagation in a plate edge can be useful for some applications, such as...
The inspection of large structures using conventional ultrasonic bulk wave techniques is slow becaus...
AbstractIn the past ten years ultrasonic guided wave systems have become widely used for the rapid l...
This paper proposes a rail defect location method based on a single mode extraction algorithm (SMEA)...
Guided ultrasonic waves provide a highly efficient method for the non-destructive evaluation (NDE) a...
Guided waves travel in plates and hollow cylinders over large distances and propagate with multiple ...
The cross-sectional geometry of a rail is complex, and numerous guided wave modes can be propagated ...
Both dispersion curves and wave structures, which are displacement distributions on a bar cross-sect...
Theoretical and experimental issues of acquiring dispersion curves for bars of arbitrary cross-secti...
The cross-section of a rail has a complex geometry, and there are many propagating modes of ultrason...
This paper gives insight to the ultrasonic wave propagation in arbitrary cross-section waveguides su...
Many commercial guided wave pipe inspection techniques use an axisymmetric torsional mode T(0, 1) as...
Guided wave inspection has been expected as a Guided wave inspection has been expected as a promisin...
In order to monitor the rail base, the dispersion characteristics and propagation properties of the ...
Ultrasonic guided wave (UGW) has shown great potential in the field of structural health monitoring ...
The analysis of guided wave propagation in a plate edge can be useful for some applications, such as...
The inspection of large structures using conventional ultrasonic bulk wave techniques is slow becaus...
AbstractIn the past ten years ultrasonic guided wave systems have become widely used for the rapid l...
This paper proposes a rail defect location method based on a single mode extraction algorithm (SMEA)...
Guided ultrasonic waves provide a highly efficient method for the non-destructive evaluation (NDE) a...
Guided waves travel in plates and hollow cylinders over large distances and propagate with multiple ...
The cross-sectional geometry of a rail is complex, and numerous guided wave modes can be propagated ...