Add to ORKGOne-sided infrared thermal imaging is being used to characterize voids and delamination in SiC/SiC composites. Flaw depth is estimated by examining the decay of surface temperature after application of a thermal pulse. Digital analysis of the surface temperature/time relationship allows characterization of the sizes and positions of defects. Results show that defects of various sizes and depths can be characterized in SiC/SiC composites with the technique
The aim of this study was a non-destructive evaluation of composites through their behaviour under t...
The aim of this study was a non-destructive evaluation of composites through their behaviour under t...
Continuous-fiber ceramic matrix composites (CFCCs) are currently being developed for various high-te...
Ceramic matrix composites are being developed for numerous high temperature applications, including ...
Includes bibliographical references (pages 59-60)The general purpose of the research was to advance ...
Continuous fiber ceramic matrix composites (CFCCs) are currently being developed for a variety of hi...
A portion of the development effort for high temperature composite materials is dedicated to the ass...
Infrared thermal imaging has become increasingly popular as a nondestructive evaluation method for c...
A technique for enhanced defect visualization in composites via transient thermography is presented ...
Thermal wave techniques have received increasing attention for use in the inspection and characteriz...
Ceramic Matrix Composites (CMC) are very attractive for structural applications at high temperatures...
Infrared thermography (IRT) and acoustic emission (AE) are the two major nondestructive methodologie...
Copyright © 2013 Konstantinos G. Dassios et al.This is an open access article distributed under the ...
Significant effort and resources are being expended to develop ceramic matrix (CMC), metal matrix (M...
The aim of this study was a non-destructive evaluation of composites through their behaviour under t...
The aim of this study was a non-destructive evaluation of composites through their behaviour under t...
The aim of this study was a non-destructive evaluation of composites through their behaviour under t...
Continuous-fiber ceramic matrix composites (CFCCs) are currently being developed for various high-te...
Ceramic matrix composites are being developed for numerous high temperature applications, including ...
Includes bibliographical references (pages 59-60)The general purpose of the research was to advance ...
Continuous fiber ceramic matrix composites (CFCCs) are currently being developed for a variety of hi...
A portion of the development effort for high temperature composite materials is dedicated to the ass...
Infrared thermal imaging has become increasingly popular as a nondestructive evaluation method for c...
A technique for enhanced defect visualization in composites via transient thermography is presented ...
Thermal wave techniques have received increasing attention for use in the inspection and characteriz...
Ceramic Matrix Composites (CMC) are very attractive for structural applications at high temperatures...
Infrared thermography (IRT) and acoustic emission (AE) are the two major nondestructive methodologie...
Copyright © 2013 Konstantinos G. Dassios et al.This is an open access article distributed under the ...
Significant effort and resources are being expended to develop ceramic matrix (CMC), metal matrix (M...
The aim of this study was a non-destructive evaluation of composites through their behaviour under t...
The aim of this study was a non-destructive evaluation of composites through their behaviour under t...
The aim of this study was a non-destructive evaluation of composites through their behaviour under t...
Continuous-fiber ceramic matrix composites (CFCCs) are currently being developed for various high-te...