Add to ORKGConventional piezoelectric based ultrasonic systems have been extensively employed for material characterization. These systems however, have been challenged by the recent need to rapidly scan large areas of new materials such as composites having complex geome-try. A promising candidate addressing this issue is laser ultrasonics. Though laser ultrasonic
A wide bandwidth 1-3 connectivity piezocomposite air transducer has been used to detect laser-genera...
An overview is given about laser ultrasonics and its applications. For the effective excitation of u...
Ultrasonic techniques are widely used in industry for thickness gauging, flaw detection and material...
Conventional piezoelectric based ultrasonic systems have been extensively employed for material char...
International audienceIn this paper, we describe a laser-ultrasonics system that comprises a high po...
Laser ultrasonics is a technique currently studied for nondestructive inspection of aerospace compos...
Laser ultrasonics represents a practical means for fast and efficient inspection of complex componen...
Ultrasonic evaluation of materials using a non-contact system is sometimes desirable, for example wh...
The aerospace industry is beginning to use advanced composite materials for primary load bearing str...
ABSTRACT: A laser ultrasonic system for real-time cure monitoring of a graphite-epoxy composite is p...
Laser ultrasonics is currently the optimal method for non-destructive testing of composite materials...
The use of composite materials for aerospace applications has markedly increased over the past two d...
Ultrasonic signals have been generated and detected in graphite/polymer composites by optical method...
Contemporary composite materials are continuously being modified and improved in accordance with gro...
Techniques are being developed worldwide for non-contact ultrasonic inspection of composite material...
A wide bandwidth 1-3 connectivity piezocomposite air transducer has been used to detect laser-genera...
An overview is given about laser ultrasonics and its applications. For the effective excitation of u...
Ultrasonic techniques are widely used in industry for thickness gauging, flaw detection and material...
Conventional piezoelectric based ultrasonic systems have been extensively employed for material char...
International audienceIn this paper, we describe a laser-ultrasonics system that comprises a high po...
Laser ultrasonics is a technique currently studied for nondestructive inspection of aerospace compos...
Laser ultrasonics represents a practical means for fast and efficient inspection of complex componen...
Ultrasonic evaluation of materials using a non-contact system is sometimes desirable, for example wh...
The aerospace industry is beginning to use advanced composite materials for primary load bearing str...
ABSTRACT: A laser ultrasonic system for real-time cure monitoring of a graphite-epoxy composite is p...
Laser ultrasonics is currently the optimal method for non-destructive testing of composite materials...
The use of composite materials for aerospace applications has markedly increased over the past two d...
Ultrasonic signals have been generated and detected in graphite/polymer composites by optical method...
Contemporary composite materials are continuously being modified and improved in accordance with gro...
Techniques are being developed worldwide for non-contact ultrasonic inspection of composite material...
A wide bandwidth 1-3 connectivity piezocomposite air transducer has been used to detect laser-genera...
An overview is given about laser ultrasonics and its applications. For the effective excitation of u...
Ultrasonic techniques are widely used in industry for thickness gauging, flaw detection and material...