ROLE OF INTERFACES IN CREEP OF FIBER-REINFORCED METAL MATRIX COMPOSITES .1. CONTINUOUS FIBERS

A model is described that considers the effects of the fibre/matrix interfaces with deformation characteristics that differ from those of the major constituent phases, on the creep deformation of fibre-reinforced composites with continuous reinforcement. The fibres are assumed to deform only elastically while the matrix is subject to power-law creep. The model identifies the important microstructural and property characteristics of the constituent phases that can significantly influence the creep behaviour. The predictions of the model are compared and shown to be consistent with the limited experimental data that are available.