Abstract Acoustic emission (AE) analyses have been performed on a high compliance, high failure strain randomly oriented carbon reinforced glass matrix composite. The composite exhibits a unique nonlinear stress-strain behavior with high failure strain during both uniaxial tensile and flexural testing. The extensive matrix cracking of this material during loading provides an excellent opportunity to study the fracture mechanism. In this study, two types of composites using similar constituents but different processing procedures resulting in different mechanical behavior, were studied. One composite showed a very pronounced non-linear stress-strain behavior during tensile testing. The curve consists of an initial linear portion, followed by a deviation from linearity and a large amount of longitudinal strain is produced with very little increase in the stress. The second composite did not show similar behavior with the slope of the stress-strain decreases continuously. The apparent different mechanical be...
[1]
Isaac M Daniel,et al.
Composite Materials: Testing and Design
,
1982
.
[2]
J. Rhazi,et al.
Acoustic emission in carbon fibre composites
,
1990
.
[3]
Y. Kagawa,et al.
Transient Behavior of Fiber Fracture in Tungsten/Copper Composites by means of Acoustic Emission Source Characterization
,
1986
.
[4]
J. Quenisset,et al.
Toughness assessment of ceramic matrix composites
,
1990
.
[5]
K. Prewo.
A compliant, high failure strain, fibre-reinforced glass-matrix composite
,
1982
.