Abstract
The fracture and flexural behaviour of monolithic SiC and SiC-whisker reinforced SiC composites (SiCw/SiC) has been investigated at room and elevated temperatures. Flexure and fracture tests were conducted in a four-point beam configuration at 23 °C, 800 °C and 1200 °C to study the effects of whisker reinforcements especially in respect of mechanical and thermal stability at high energy environments. Flexural strengths and fracture toughness data within the test temperature range are presented in graphical as well as in Weibull form, and experimental observations are analysed and discussed. Increase in flexural strength as well as in fracture toughness has been observed with the whisker reinforcement. However, it was found that the trend discontinues after a certain range of temperature. Post-failure analyses have been performed with the scanning electron microscope (SEM). Formation of glass phase has been observed at the whisker/matrix interface and the crack growth was found to be shifting from intergranular to transgranular with the rise in temperature. Effects of whisker reinforcement and the degradation of flexural and fracture properties at elevated temperature are investigated. Ultrasonic velocity measurements have been performed through the thickness of the untested as well as fractured specimen, and the variation in the sonic wave velocity is discussed in this paper.
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Mahfuz, H., Zadoo, D.P., Wilks, F. et al. Fracture and flexural characterization of SiCw/SiC composites at room and elevated temperatures. J Mater Sci 30, 2406–2411 (1995). https://doi.org/10.1007/BF01184593
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DOI: https://doi.org/10.1007/BF01184593