Ultrasonic backscattering measurements by means of spatial averaging technique were carried out in steel to determine the ultrasonic attenuation coefficient. The attenuation coefficients were evaluated from the exponential decay of the backscattering signal. The results were compared with those obtained by evaluating the amplitude decay of the main pulse. Good agreement is observed provided the condition is valid, i.e. Rayleigh scattering with d/lambda equal or smaller than 0.2 and or weak elastic anisotropy of the single crystal. Otherwise multiple scattering becomes dominant and the amplitude decay of the backscattering curve is no longer related to the attenuation coefficient
Ultrasonic attenuation in steel and cast iron with various kinds of texture were measured in the fre...
Porosity in structural materials limits their ultimate strength and hence their utility. Recently se...
Examination of the backscattering of ultrasonic waves has been suggested as a possible technique for...
Ultrasonic backscattering measurements by means of spatial averaging technique were carried out in s...
A laser ultrasonic system has been used to measure backscattered waves with the intention of evaluat...
Diffuse ultrasonic backscatter, the result of the interaction of elastic waves with material heterog...
Porosity, microcracks, or secondary phase inclusions alter the sound velocities of materials. Ultras...
A well-established narrowband pulse-echo technique is employed and improved further to investigate t...
A method for measuring ultrasonic attenuation in some common metals is described together with the r...
Scattering induced ultrasonic attenuation offers a simple way to characterize material inhomogeneiti...
Ultrasonic attenuation coefficients of stainless steel with various grain sizes were measured by pul...
The study of ultrasonic attenuation by a non-destructive method has an important role in characteriz...
In this paper, ultrasonic attenuation of engineering materials is evaluated comprehensively, coverin...
Attenuation coefficients of longitudinal ultrasonic waves in aluminium were measured by pulsed ultra...
Attenuation of Rayleigh-type surface acoustic waves induced by grain-boundary scattering is studied ...
Ultrasonic attenuation in steel and cast iron with various kinds of texture were measured in the fre...
Porosity in structural materials limits their ultimate strength and hence their utility. Recently se...
Examination of the backscattering of ultrasonic waves has been suggested as a possible technique for...
Ultrasonic backscattering measurements by means of spatial averaging technique were carried out in s...
A laser ultrasonic system has been used to measure backscattered waves with the intention of evaluat...
Diffuse ultrasonic backscatter, the result of the interaction of elastic waves with material heterog...
Porosity, microcracks, or secondary phase inclusions alter the sound velocities of materials. Ultras...
A well-established narrowband pulse-echo technique is employed and improved further to investigate t...
A method for measuring ultrasonic attenuation in some common metals is described together with the r...
Scattering induced ultrasonic attenuation offers a simple way to characterize material inhomogeneiti...
Ultrasonic attenuation coefficients of stainless steel with various grain sizes were measured by pul...
The study of ultrasonic attenuation by a non-destructive method has an important role in characteriz...
In this paper, ultrasonic attenuation of engineering materials is evaluated comprehensively, coverin...
Attenuation coefficients of longitudinal ultrasonic waves in aluminium were measured by pulsed ultra...
Attenuation of Rayleigh-type surface acoustic waves induced by grain-boundary scattering is studied ...
Ultrasonic attenuation in steel and cast iron with various kinds of texture were measured in the fre...
Porosity in structural materials limits their ultimate strength and hence their utility. Recently se...
Examination of the backscattering of ultrasonic waves has been suggested as a possible technique for...