Add to ORKGAn acoustic-ultrasonic method is described that was successful in ranking unidirectional graphite-polyimide composite specimens according to variations in interlaminar shear strength. Using this method, a quantity termed the stress wave factor was determined. It was found that this factor increases directly with interlaminar shear strength. The key variables in this investigation were composite density, fiber weight fraction, and void content. The stress wave factor and other ultrasonic factors that were studied were found to provide a powerful means for nondestructive evaluation of mechanical strength properties
A method for evaluating the porosity volume content in composite laminates using the slope of the ul...
To evaluate the response of composite materials, it is imperative that the input excitation as well ...
Unidirectional boron fiber-epoxy composites are used for crack repair and for reinforcement of highl...
Details of the method used to measure the stress wave factor are described. Frequency spectra of the...
Acousto-ultrasonics is an ultrasonic technique that was originally devised to cope with the particul...
The acousto-ultrasonic approach for nondestructive evaluation provides a measurement procedure for q...
A preliminary investigation is conducted to define capabilities and limitations of ultrasonic and ac...
The development of the mechanical strength of composite materials which are consolidated by cementac...
An acoustical-ultrasonic technique was used to demonstrate relationships existing between changes in...
Unidirectional Hercules AS/3501-6 graphite fiber epoxy composites were subjected to repeated control...
The effect of voids on the interlaminar shear strength of a polyimide matrix composite system is des...
The determination of levels of porosity is important in the engineering uses of graphite fiber/polym...
Progress in the application of ultrasonic techniques to nondestructive measurement of mechanical str...
Ultrasonic technology from the perspective of nondestructive evaluation approaches to material stren...
Evaluation of elastic properties of composite materials using ultrasound is important for the genera...
A method for evaluating the porosity volume content in composite laminates using the slope of the ul...
To evaluate the response of composite materials, it is imperative that the input excitation as well ...
Unidirectional boron fiber-epoxy composites are used for crack repair and for reinforcement of highl...
Details of the method used to measure the stress wave factor are described. Frequency spectra of the...
Acousto-ultrasonics is an ultrasonic technique that was originally devised to cope with the particul...
The acousto-ultrasonic approach for nondestructive evaluation provides a measurement procedure for q...
A preliminary investigation is conducted to define capabilities and limitations of ultrasonic and ac...
The development of the mechanical strength of composite materials which are consolidated by cementac...
An acoustical-ultrasonic technique was used to demonstrate relationships existing between changes in...
Unidirectional Hercules AS/3501-6 graphite fiber epoxy composites were subjected to repeated control...
The effect of voids on the interlaminar shear strength of a polyimide matrix composite system is des...
The determination of levels of porosity is important in the engineering uses of graphite fiber/polym...
Progress in the application of ultrasonic techniques to nondestructive measurement of mechanical str...
Ultrasonic technology from the perspective of nondestructive evaluation approaches to material stren...
Evaluation of elastic properties of composite materials using ultrasound is important for the genera...
A method for evaluating the porosity volume content in composite laminates using the slope of the ul...
To evaluate the response of composite materials, it is imperative that the input excitation as well ...
Unidirectional boron fiber-epoxy composites are used for crack repair and for reinforcement of highl...