Add to ORKGThis paper presents a review of some of the research projects at University College London which use ultrasonic waves in non-destructive testing. The projects covered include a low-frequency scanning acoustic microscope, a new dark-field acoustic microscope, an update on finite difference model studies of wave propagation and scattering, developments in mode-conversion techniques for defect characterisation, a new high-resolution acoustic field sampling probe and a resume of the work on Zn0 transducers
Ultrasonic wavefield imaging refers to acquiring full waveform data over a region of interest for wa...
The determination of material properties for very small specimens such as biological cells or semico...
This book presents applications on the ultrasonic wave for material characterization and nondestruct...
This paper presents a review of some of the research projects at University College London which use...
Recent requirements in the field of non-destructive testing are techniques that quantify micro-struc...
Ultrasonic Non-Destructive Evaluation (NDE) relies on the scattering of waves from discontinuities, ...
This thesis describes research towards the development of ultrasonic methods to test samples that ar...
Modern non-destructive testing (NDT) technology today acts as an essential role in the analysis of t...
Non-Destructive Testing (NDT) is an essential analysis technique used to evaluate an engineering com...
Modern non-destructive testing (NDT) technology today plays a crucial role in the inspection of the ...
A non-destructive inspection system using 50MHz ultrasound has been developed. The system has been d...
Non-destructive testing (NDT) plays a crucial role in ensuring the quality of products in various in...
Acoustic waves can penetrate into materials, and thus it is possible to study the microstructure of ...
The acoustic microscope, which utilizes focused ultrasound at hundreds of megahertz or even a few gi...
The scanning acoustic microscope operating in water with a frequency of 2.5 GHz (wavelength 6000 Å) ...
Ultrasonic wavefield imaging refers to acquiring full waveform data over a region of interest for wa...
The determination of material properties for very small specimens such as biological cells or semico...
This book presents applications on the ultrasonic wave for material characterization and nondestruct...
This paper presents a review of some of the research projects at University College London which use...
Recent requirements in the field of non-destructive testing are techniques that quantify micro-struc...
Ultrasonic Non-Destructive Evaluation (NDE) relies on the scattering of waves from discontinuities, ...
This thesis describes research towards the development of ultrasonic methods to test samples that ar...
Modern non-destructive testing (NDT) technology today acts as an essential role in the analysis of t...
Non-Destructive Testing (NDT) is an essential analysis technique used to evaluate an engineering com...
Modern non-destructive testing (NDT) technology today plays a crucial role in the inspection of the ...
A non-destructive inspection system using 50MHz ultrasound has been developed. The system has been d...
Non-destructive testing (NDT) plays a crucial role in ensuring the quality of products in various in...
Acoustic waves can penetrate into materials, and thus it is possible to study the microstructure of ...
The acoustic microscope, which utilizes focused ultrasound at hundreds of megahertz or even a few gi...
The scanning acoustic microscope operating in water with a frequency of 2.5 GHz (wavelength 6000 Å) ...
Ultrasonic wavefield imaging refers to acquiring full waveform data over a region of interest for wa...
The determination of material properties for very small specimens such as biological cells or semico...
This book presents applications on the ultrasonic wave for material characterization and nondestruct...