Processing and properties of C/Si–B–C–N fiber–reinforced ceramic matrix composites prepared by precursor impregnation and pyrolysis
The fabrication of C/Si–B–C–N fiber–reinforced ceramic matrix composites (FRCs) is reported. The processing basically involves three individual steps: (i) vacuum-assisted infiltration of a liquid two-component Si–B–C–N precursor into stacked woven carbon fiber fabrics, (ii) stepwise thermal cross-linking and (iii) thermal transformation of the polymer matrix composite into a ceramic matrix composite. Repeated polymer infiltration/pyrolysis cycles resulted in FRCs with 89% relative density. The average bending strength of the FRCs was 255 MPa and considerable fiber pull-out was observed throughout the fractured surfaces. The composite retained its strengths upon bending even at 1500 °C in argon and there was no evidence for brittle fracture. The flexural creep strain of the composite at 1400 °C was 0.55%.
See Hoon Lee aEmail:LEE.Seahoon@nims.go.jp?Markus Weinmann1?Fritz Aldingera
[a]Max-Planck-Institut für Metallforschung, Institut für Nichtmetallische Anorganische Materialien, Universitt Stuttgart Pulvermetallurgisches Laboratorium, Heisenbergstr. 3, 70569 Stuttgart, Germany
