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Quantification of energy absorption by fibre pull-out during failure of SiCf/BN/SiBCN ceramic matrix composites

Tianlu Qiao, Xun Zhang, Ping Xiao, Philip J. Withers

2025Composites Part B Engineering5 citationsDOIOpen Access PDF

Abstract

The fibre/matrix interface is key to controlling the toughness of ceramic matrix composites (CMCs), with fibre pull-out often cited as the primary toughening mechanism. However, previously it has not been possible to measure the extent of energy absorption by pull-out during failure. Here, time-lapse X-ray computed tomography (XCT) is used to resolve the toughening mechanisms including crack deflection, fibre bridging, frictional sliding and fibre pull-out during straining of a 2D plain-woven SiC fibre reinforced SiBCN ceramic matrix composite having a BN interphase. Then by analysing the extent of fibre pull-out for every fibre in the volume, the energy dissipated by progressive fibre pull-out is quantified based on the interfacial shear strength measured by single fibre push-out testing. As a case study, the efficacy of toughening by fibre pull-out before, and after, exposure of the composite in air to 1200 °C for 30 h has been compared. While the high temperature exposure increased the interfacial strength, reduced the extent of fibre pull-out and reduced the energy absorption by a factor of five, in both cases fibre pull-out represents at least 80 % of the total energy absorbed. This highlights the critical determining role of fibre pull-out in developing tough CMCs and the need to engineer a better high temperature resistant interphase for high temperature applications.

Topics & Concepts

Materials scienceComposite materialComposite numberCeramic matrix compositeToughnessCeramicInterphaseTougheningFracture toughnessFracture mechanicsAbsorption (acoustics)Matrix (chemical analysis)Shear (geology)FiberAbsorption of waterFracture (geology)CrackingHigh energyAdvanced ceramic materials synthesisAdvanced materials and compositesRecycling and utilization of industrial and municipal waste in materials production
Quantification of energy absorption by fibre pull-out during failure of SiCf/BN/SiBCN ceramic matrix composites | Litcius