Özet:

Within the scope of this study, ceramic matrix composite materials were produced by reinforcing carbon fiber fabric into the ZrB2-SiC matrix phase. A ceramic slurry was prepared by mixing the ceramic materials used in the ethanol environment, and this ceramic slurry was impregnated with carbon fiber fabrics by applying pressureless impregnation. The mass ratio of ceramic materials is ZrB2-20wt%SiC. In order to investigate the effect of the binder, some composites were prepared using polyvinyl butyral (PVB). In order to obtain a homogeneous ceramic slurry, the starting powders were added into a polyethylene (PET) bottle and mixed for 24 hours in a ball mill using Si3N4 balls. Composite materials were subjected to Spark Plasma Sintering (SPS) process after the application of the prepared ceramic slurry to carbon fiber fabrics and drying. The sintering process was carried out as single-stage and double-stage. The maximum sintering temperature reached is 2000 ℃ and the waiting time at the maximum temperature is 30 minutes. The maximum applied pressure is 50 MPa. After the sintering process, density analysis with Archimedes Principle, phase analysis with X-ray powder diffraction method, micro-structural analysis with scanning electron microscope and 3-point bending test analysis with Instron device were performed for the samples cut in suitable sizes for various characterization processes. According to the results obtained; It has been determined that performing the sintering step in double stages and using binders in the slurry preparation process are more efficient in terms of structural and mechanical properties. The maximum density (2.3972 g/cm3) was reached in the sample that was sintered in double stages and used binder. In addition, the same sample is characterized by a maximum elastic modulus of 5.59 Gpa.

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