Add to ORKGAn off-axis flexure (OAF) test was performed to measure ply strength under multiaxial stress states. This test involves unidirectional off-axis specimens loaded in bending, using an apparatus that allows these anisotropic specimens to twist as well as flex without the complications of a resisting torque. A 3D finite element stress analysis verified that simple beam theory could be used to compute the specimen bending stresses at failure. Unidirectional graphite/epoxy specimens with fiber angles ranging from 90 deg to 15 deg have combined normal and shear stresses on their failure planes that are typical of 45 deg plies in structural laminates. Tests for a range of stress states with AS4/3501-6 specimens showed that both normal and shear str...
grantor: University of TorontoDesign of advanced fiber composite structures requires a kno...
Three test schemes were examined for testing graphite/epoxy (Narmco T300/5208) composite material sp...
The present report focuses on testing and modeling strain rate dependent compressive and fracture st...
The mechanical behavior and stresses inducing fracture modes of unidirectional high-modulus graphite...
Criteria were developed for identifying, characterizing, and quantifying fracture modes in high-modu...
The off-axis tension test is frequently used to characterize the strength behavior of fibrous compos...
The results of in-plane four-point bend experiments on unidirectionally reinforced composite beams a...
Critical fiber-matrix (FM) interface strength parameters were determined using a micromechanics-base...
Characterization of shear behavior in composite materials remains a not fully solved problem. In the...
The mechanical behavior, fracture surfaces, and fracture modes of unidirectional high-modulus graphi...
The influence of biaxially applied loads on the strength of composite materials containing holes was...
The off axis tensile test was examined experimentally to obtain actual displacement fields over the ...
The effect of specimen size upon the response and strength of +/- 45 degree angle-ply laminates was ...
A simple and accurate test method is presented to investigate the influence of shear stresses on ten...
The in situ ply strengths in several composites were calculated using laminate fracture data for app...
grantor: University of TorontoDesign of advanced fiber composite structures requires a kno...
Three test schemes were examined for testing graphite/epoxy (Narmco T300/5208) composite material sp...
The present report focuses on testing and modeling strain rate dependent compressive and fracture st...
The mechanical behavior and stresses inducing fracture modes of unidirectional high-modulus graphite...
Criteria were developed for identifying, characterizing, and quantifying fracture modes in high-modu...
The off-axis tension test is frequently used to characterize the strength behavior of fibrous compos...
The results of in-plane four-point bend experiments on unidirectionally reinforced composite beams a...
Critical fiber-matrix (FM) interface strength parameters were determined using a micromechanics-base...
Characterization of shear behavior in composite materials remains a not fully solved problem. In the...
The mechanical behavior, fracture surfaces, and fracture modes of unidirectional high-modulus graphi...
The influence of biaxially applied loads on the strength of composite materials containing holes was...
The off axis tensile test was examined experimentally to obtain actual displacement fields over the ...
The effect of specimen size upon the response and strength of +/- 45 degree angle-ply laminates was ...
A simple and accurate test method is presented to investigate the influence of shear stresses on ten...
The in situ ply strengths in several composites were calculated using laminate fracture data for app...
grantor: University of TorontoDesign of advanced fiber composite structures requires a kno...
Three test schemes were examined for testing graphite/epoxy (Narmco T300/5208) composite material sp...
The present report focuses on testing and modeling strain rate dependent compressive and fracture st...