Aspects of residual thermal stresses in continuous-fibre-reinforced ceramic matrix composites

Raman spectroscopy was applied to silicon carbide/carbon continuous Ðbre-reinforced ceramic matrix composites to study the microstructure and composition changes in the Ðbres in the matrices after the consolidation of the composite at high temperatures by hot pressing, and also the stress distributi

## Abstract The flexural creep and creep strain recovery behaviour during creep‐fatigue tests of a cross‐ply SiC fibre reinforced Barium Magnesium Aluminosilicate glass‐ceramic matrix composite was investigated at 1100°C in air. Only heat‐treated samples (1 h at 1100°C) were tested. Stress levels o

When a metal matrix composite (MMC) is cooled down from the fabrication or annealing temperature to room temperature, residual stresses are induced in the composite due to the mismatch of the thermal expansion coe cients of the matrix and reinforcement. A thermomechanical model describing these proc

Creep models for unidirectional ceramic matrix composites reinforced by long creeping fibers with weak interfaces are presented. These models extend the work of Du and Creep models for metal matrix composites with long brittle fibers. J. Mech. Phys. Solids 43, to include the effect of fiber primary