Scanning acoustic microscopy and high-frequency acoustic imaging exploit the interaction of ultrasonic waves with material to image its structure and defects with high spatial resolution. Low frequencies (<100 MHz) are generally used for defect detection, whereas imaging at higher frequencies reveals more details about the microstructure. This paper outlines the principles of acoustic imaging techniques, represents recently developed theoretical fundamentals which allo quantitative evaluation of elastic material properties, and points out a series of practical applications. These include observation of microcrack damage and R-curve behavior in ceramics, interacting effects with grain and phase boundaries and detection of defects down to a s...
Since acoustic microscopy was first invented by Quate and Lemons,1 many workers in the field have bu...
Ceramic materials have been incorporated into armor systems to reduce their weight while providing h...
The scanning acoustic microscope operating in water with a frequency of 2.5 GHz (wavelength 6000 Å) ...
Characterization of defects with micro- and nanometer sizes, local variations in materials propertie...
Acoustic waves can penetrate into materials, and thus it is possible to study the microstructure of ...
Abstract: Scanning Acoustic Microscopy (SAcM) has been widely used for non-destructive evaluation (N...
High frequency acoustic imaging represents a powerful technique for the nondestructive evaluation of...
A commercially available scanning-laser-acoustic-microscope {SLAM) has been developed which provides...
A high ultrasound system for the frequency range of 10-200 MHz is used to detect small defects and i...
Acoustic microscopy enables you to image and measure the elastic properties of materials with the re...
In recent years, acoustic microscopy has been found to be very useful for characterizing engineering...
The physical and technical basis for the non-destructive testing of components made out of technical...
The final ceramic integrity was investigated by means of high resolution ultrasonic images. To ensur...
The high resolving power coupled with the real time capability of the SLAM make it a useful techniqu...
The paper will give a brief overview on techniques that have been developed or are in progress for h...
Since acoustic microscopy was first invented by Quate and Lemons,1 many workers in the field have bu...
Ceramic materials have been incorporated into armor systems to reduce their weight while providing h...
The scanning acoustic microscope operating in water with a frequency of 2.5 GHz (wavelength 6000 Å) ...
Characterization of defects with micro- and nanometer sizes, local variations in materials propertie...
Acoustic waves can penetrate into materials, and thus it is possible to study the microstructure of ...
Abstract: Scanning Acoustic Microscopy (SAcM) has been widely used for non-destructive evaluation (N...
High frequency acoustic imaging represents a powerful technique for the nondestructive evaluation of...
A commercially available scanning-laser-acoustic-microscope {SLAM) has been developed which provides...
A high ultrasound system for the frequency range of 10-200 MHz is used to detect small defects and i...
Acoustic microscopy enables you to image and measure the elastic properties of materials with the re...
In recent years, acoustic microscopy has been found to be very useful for characterizing engineering...
The physical and technical basis for the non-destructive testing of components made out of technical...
The final ceramic integrity was investigated by means of high resolution ultrasonic images. To ensur...
The high resolving power coupled with the real time capability of the SLAM make it a useful techniqu...
The paper will give a brief overview on techniques that have been developed or are in progress for h...
Since acoustic microscopy was first invented by Quate and Lemons,1 many workers in the field have bu...
Ceramic materials have been incorporated into armor systems to reduce their weight while providing h...
The scanning acoustic microscope operating in water with a frequency of 2.5 GHz (wavelength 6000 Å) ...