Add to ORKGConventional ultrasonic C-scanning for detection and characterization of material defects has limitations because it provides only an overall planar view of the damage without accurate definition of the size and location of flaws. Hence, a three-dimensional reconstruction from the digitized ultrasonic pulse-echo waveform database was developed for full volume evaluation of damage [1]
Ultrasonic damage detection and characterization is commonly used in nondestructive evaluation (NDE)...
Composite materials are being applied extensively in aerospace structures. New more damage tolerant ...
Failures detection in composite laminates is complicated respect to conventional non-destructive tes...
Some of the most critical flaws encountered during the service life of a composite component can res...
Advanced composites, particularly high modulus laminates, are often susceptible to transverse impact...
Conventional ultrasonic C-scan images are generated from information acquired within “gates” placed ...
This paper will report on the results of a study of the application of advanced digital data acquisi...
Ultrasonic nondestructive evaluation is an effective method of evaluating various types of composite...
Ultrasonic C-scans are used frequently to detect defects in composite components caused during fabri...
Conventional ultrasonic inspection methods are largely used for detection of delaminations in compos...
Ultrasonic C-scans are used frequently to detect defects in composite components caused during fabri...
The use of instrumental Nondestructive Evaluation (NDE) techniques to assess the nature of impact da...
Low velocity impact damage to laminated composite structures can cause a range of damage modes. Of i...
Conventional ultrasonic inspection methods are largely used for detection of delaminations in compos...
Low velocity impact damage to laminated composite structures can cause a range of damage modes. Of i...
Ultrasonic damage detection and characterization is commonly used in nondestructive evaluation (NDE)...
Composite materials are being applied extensively in aerospace structures. New more damage tolerant ...
Failures detection in composite laminates is complicated respect to conventional non-destructive tes...
Some of the most critical flaws encountered during the service life of a composite component can res...
Advanced composites, particularly high modulus laminates, are often susceptible to transverse impact...
Conventional ultrasonic C-scan images are generated from information acquired within “gates” placed ...
This paper will report on the results of a study of the application of advanced digital data acquisi...
Ultrasonic nondestructive evaluation is an effective method of evaluating various types of composite...
Ultrasonic C-scans are used frequently to detect defects in composite components caused during fabri...
Conventional ultrasonic inspection methods are largely used for detection of delaminations in compos...
Ultrasonic C-scans are used frequently to detect defects in composite components caused during fabri...
The use of instrumental Nondestructive Evaluation (NDE) techniques to assess the nature of impact da...
Low velocity impact damage to laminated composite structures can cause a range of damage modes. Of i...
Conventional ultrasonic inspection methods are largely used for detection of delaminations in compos...
Low velocity impact damage to laminated composite structures can cause a range of damage modes. Of i...
Ultrasonic damage detection and characterization is commonly used in nondestructive evaluation (NDE)...
Composite materials are being applied extensively in aerospace structures. New more damage tolerant ...
Failures detection in composite laminates is complicated respect to conventional non-destructive tes...