Solid-particle erosion and strength degradation of Si3N4/BN fibrous monoliths

Erosive damage was studied in Si3N4/BN fibrous monoliths (FMs) and the individual constituents of the cells and cell boundary, monolithic Si3N4 and BN. Unidirectional, 0/90degrees, and +/-45degrees FMs were tested. Specimens were subjected to impact at 90degrees by angular SiC particles of average diameter 143 mum, traveling at 50-100 m/s. Steady-state erosion rates in the FMs were higher than predicted by a rule of mixtures based on erosion rates of the cell and cell-boundary phases. The relatively rapid FM erosion was attributed to chipping of the Si3N4 cells caused by radial cracks. Bending strengths were measured before and after erosion testing to steady state at 100 m/s. The strength of monolithic Si3N4 decreased 22%; the BN was not tested because insufficient material was available. Within experimental error, the strengths of the FMs were unaffected by erosion. Fracture data obtained approximately 1.5 years apart suggested that the FMs were susceptible to environmentally assisted slow crack growth. (C) 2003 Elsevier B.V All rights reserved.