Add to ORKGAn ultrasonic microscope was designed and constructed to detect surface flaw defects on materials which contain natural discontinuities. The application of this flaw detection system to via-fill defects of single layer multiple layer ceramic substrates was considered. The microscope was evaluated for its depth sensitivity and resolution capabilities. The results of the experiment are that the ultrasonic system has repeatable depth sensitivities of better than ten microns, and resolution capabilities on the order of 3.3 cycles per millimeter. The application of the flaw detector to ceramic substrate via-fill defect inspection was verified
Ultrasonic testing is the main tool to inspect the structural integrity of primary circuit component...
This paper presents the results of a program sponsored by NADC for NASC to develop an ultrasonic sur...
Ultrasonic testing (UT) is a well established Nondestructive Technique. It is based on ultrasonic w...
An ultrasonic microscope was designed and constructed to detect surface flaw defects on materials wh...
The final ceramic integrity was investigated by means of high resolution ultrasonic images. To ensur...
A high frequency 250 MHz A-scan system has been used for flaw detection. We have been able to detect...
Ultrasonic Flaw Detector inspects materials non-destructively for surface and internal defects. It ...
A non-destructive inspection system using 50MHz ultrasound has been developed. The system has been d...
A high frequency 250 MHz A-scan system has been used for flaw detection. We have been able to detect...
The ultrasonic testing of ceramic materials is a two headed problem. First, the defect must be detec...
The scanning laser acoustic microscope (SLAM) is applied to the problem of nondestructive testing of...
Modern ceramic materials offer many attractive physical and mechanical properties for a wide and rap...
At the present, new materials with mechanical properties superior to steel are introduced into the d...
In this study, an ultra-high-resolution acoustic microscopy system capable of non-destructively eval...
Ceramic materials can replace metals in many applications requiring high strength and resistance to ...
Ultrasonic testing is the main tool to inspect the structural integrity of primary circuit component...
This paper presents the results of a program sponsored by NADC for NASC to develop an ultrasonic sur...
Ultrasonic testing (UT) is a well established Nondestructive Technique. It is based on ultrasonic w...
An ultrasonic microscope was designed and constructed to detect surface flaw defects on materials wh...
The final ceramic integrity was investigated by means of high resolution ultrasonic images. To ensur...
A high frequency 250 MHz A-scan system has been used for flaw detection. We have been able to detect...
Ultrasonic Flaw Detector inspects materials non-destructively for surface and internal defects. It ...
A non-destructive inspection system using 50MHz ultrasound has been developed. The system has been d...
A high frequency 250 MHz A-scan system has been used for flaw detection. We have been able to detect...
The ultrasonic testing of ceramic materials is a two headed problem. First, the defect must be detec...
The scanning laser acoustic microscope (SLAM) is applied to the problem of nondestructive testing of...
Modern ceramic materials offer many attractive physical and mechanical properties for a wide and rap...
At the present, new materials with mechanical properties superior to steel are introduced into the d...
In this study, an ultra-high-resolution acoustic microscopy system capable of non-destructively eval...
Ceramic materials can replace metals in many applications requiring high strength and resistance to ...
Ultrasonic testing is the main tool to inspect the structural integrity of primary circuit component...
This paper presents the results of a program sponsored by NADC for NASC to develop an ultrasonic sur...
Ultrasonic testing (UT) is a well established Nondestructive Technique. It is based on ultrasonic w...