Add to ORKGThe ability of scanning laser acoustic microscopy (SLAM) to characterize artificially seeded voids in sintered silicon nitride structural ceramic specimens was investigated. Using trigonometric relationships and Airy's diffraction theory, predictions of internal void depth and size were obtained from acoustic diffraction patterns produced by the voids. Agreement was observed between actual and predicted void depths. However, predicted void diameters were generally much greater than actual diameters. Precise diameter predictions are difficult to obtain due to measurement uncertainty and the limitations of 100 MHz SLAM applied to typical ceramic specimens
A review is presentod of research investigations of several acoustic microscopy techniques for appli...
The reliability of microfocus x-radiography for detecting subsurface voids in structural ceramic tes...
High frequency acoustic imaging represents a powerful technique for the nondestructive evaluation of...
The reliability of 100 MHz scanning laser acoustic microscopy (SLAM) for detecting internal voids in...
The reliability of scanning laser acoustic microscopy (SLAM) for detecting surface voids in structur...
The high resolving power coupled with the real time capability of the SLAM make it a useful techniqu...
Radiographic, ultrasonic, scanning laser acoustic microscopy (SLAM), and thermo-acoustic microscopy ...
The factors that affect reliability of nondestructive detection of flaws in structural ceramics by m...
High frequency acoustic imaging represents a powerful technique for the nondestructive evaluation of...
Radiography and several acoustic and thermoacoustic microscopy techniques are investigated for appli...
High frequency acoustic imaging represents a powerful technique for the nondestructive evaluation of...
The Scanning Laser Acoustic Microscope (SLAM) operating at a frequency of 100 MHz is used to charact...
The Scanning Laser Acoustic Microscope (SLAM) operating at a frequency of 100 MHz is used to charact...
The scanning laser acoustic microscope (SLAM) is applied to the problem of nondestructive testing of...
A review is presented on research and development of techniques for nondestructive evaluation and ch...
A review is presentod of research investigations of several acoustic microscopy techniques for appli...
The reliability of microfocus x-radiography for detecting subsurface voids in structural ceramic tes...
High frequency acoustic imaging represents a powerful technique for the nondestructive evaluation of...
The reliability of 100 MHz scanning laser acoustic microscopy (SLAM) for detecting internal voids in...
The reliability of scanning laser acoustic microscopy (SLAM) for detecting surface voids in structur...
The high resolving power coupled with the real time capability of the SLAM make it a useful techniqu...
Radiographic, ultrasonic, scanning laser acoustic microscopy (SLAM), and thermo-acoustic microscopy ...
The factors that affect reliability of nondestructive detection of flaws in structural ceramics by m...
High frequency acoustic imaging represents a powerful technique for the nondestructive evaluation of...
Radiography and several acoustic and thermoacoustic microscopy techniques are investigated for appli...
High frequency acoustic imaging represents a powerful technique for the nondestructive evaluation of...
The Scanning Laser Acoustic Microscope (SLAM) operating at a frequency of 100 MHz is used to charact...
The Scanning Laser Acoustic Microscope (SLAM) operating at a frequency of 100 MHz is used to charact...
The scanning laser acoustic microscope (SLAM) is applied to the problem of nondestructive testing of...
A review is presented on research and development of techniques for nondestructive evaluation and ch...
A review is presentod of research investigations of several acoustic microscopy techniques for appli...
The reliability of microfocus x-radiography for detecting subsurface voids in structural ceramic tes...
High frequency acoustic imaging represents a powerful technique for the nondestructive evaluation of...