The effect of weak interface on transverse properties of a ceramic matrix compositeExperimental studies conducted at NASA Lewis on SiC reaction-bonded Si3N4 composite system showed that transverse stiffness and strength were much lower than those predicted from existing analytical models based on good interfacial bonding. It was believed that weakened interfaces were responsible for the decrease in tranverse properties. To support this claim, a two-dimensional FEM analysis was performed for a transverse representative volume element. Specifically, the effect of fiber/matrix displacement compatibility at the interface was studied under both tensile and compressive transverse loadings. Interface debonding was represented using active gap elements connecting the fiber and matrix. The analyses show that the transverse tensile strength and stiffness are best predicted when a debonded interface is assumed for the composite. In fact, the measured properties can be predicted by simply replacing the fibers by voids. Thus, it is found that little or no interfacial bonding exists in the composite, and that an elastic analysis can predict the transverse stiffness and strength.
Document ID
19910036677
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Shimansky, R. A. (Pennsylvania State Univ. University Park, PA, United States)
Hahn, H. T. (Pennsylvania State Univ. University Park, PA, United States)
Salamon, N. J. (Pennsylvania State University University Park, United States)