A well-established narrowband pulse-echo technique is employed and improved further to investigate the frequency-dependent ultrasonic wave attenuation in various solids. During attenuation coefficient measurement, the diffraction correction is introduced to minimize wave beam-spreading loss, and frequency domain signals are used to minimize both the effects of downward shift of frequency and the error in determining the amplitude of time-domain signals. The frequency-dependent attenuation curves for 19 frequently-used solid materials are obtained using this method in the frequency range 1–25 MHz. It is observed from the measurement results of these materials that the attenuation can vary linearly or nonlinearly with the signal frequency, an...
Short time Fourier transform (STFT) has been used to study the distribution of ultrasonic energy as ...
In the field of non-destructive evaluation of materials, conventional ultrasonic measurement techniq...
This article explores the characterization of homogenous materials (metals, alloys, glass and polyme...
In this paper, ultrasonic attenuation of engineering materials is evaluated comprehensively, coverin...
A method for measuring ultrasonic attenuation in some common metals is described together with the r...
In this paper the study of frequency-dependent ultrasonic attenuation in strongly heterogeneous mate...
Ultrasonic attenuation coefficients of ceramic and inorganic materials were determined for the longi...
Ultrasonic attenuation coefficients of stainless steel with various grain sizes were measured by pul...
Attenuation coefficients of longitudinal ultrasonic waves in aluminium were measured by pulsed ultra...
The attenuation of an acoustic wavefront in metals comes from scattering caused by grain anisotropy ...
Ultrasonic backscattering measurements by means of spatial averaging technique were carried out in s...
The use of ultrasonic techniques for the characterization of microstructural features has attracted ...
In this paper, ultrasonic attenuation of the transverse waves of engineering materials is evaluated,...
This dissertation gives a critical survey of the present state of knowledge in the field of ultrason...
The backwall echo in the ultrasonic pulse echo technique consists of more than one peak. The ratio o...
Short time Fourier transform (STFT) has been used to study the distribution of ultrasonic energy as ...
In the field of non-destructive evaluation of materials, conventional ultrasonic measurement techniq...
This article explores the characterization of homogenous materials (metals, alloys, glass and polyme...
In this paper, ultrasonic attenuation of engineering materials is evaluated comprehensively, coverin...
A method for measuring ultrasonic attenuation in some common metals is described together with the r...
In this paper the study of frequency-dependent ultrasonic attenuation in strongly heterogeneous mate...
Ultrasonic attenuation coefficients of ceramic and inorganic materials were determined for the longi...
Ultrasonic attenuation coefficients of stainless steel with various grain sizes were measured by pul...
Attenuation coefficients of longitudinal ultrasonic waves in aluminium were measured by pulsed ultra...
The attenuation of an acoustic wavefront in metals comes from scattering caused by grain anisotropy ...
Ultrasonic backscattering measurements by means of spatial averaging technique were carried out in s...
The use of ultrasonic techniques for the characterization of microstructural features has attracted ...
In this paper, ultrasonic attenuation of the transverse waves of engineering materials is evaluated,...
This dissertation gives a critical survey of the present state of knowledge in the field of ultrason...
The backwall echo in the ultrasonic pulse echo technique consists of more than one peak. The ratio o...
Short time Fourier transform (STFT) has been used to study the distribution of ultrasonic energy as ...
In the field of non-destructive evaluation of materials, conventional ultrasonic measurement techniq...
This article explores the characterization of homogenous materials (metals, alloys, glass and polyme...