CMC-Processing from Powders by Hot-Pressing

Shao Ming Dong; Yu Sheng Ding; Zhen Wang; Qing Zhou; Xiang Yu Zhang; Dong Liang Jiang; Akira Kohyama

doi:10.4028/www.scientific.net/AST.50.75

Paper Titles

The Influence of SiC Nano-Precipitates on the Interface Structure in C/C-SiC Composites
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Improved Oxide-Based Interfacial Coatings for the Next Generation of CMC's
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Thixoforged Al-Si Metal Matrix Composites Made from Thermally Sprayed Ceramic Fiber Laminates
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Processing of Non-Oxide Ceramic Matrix Composites: An Overview
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CMC-Processing from Powders by Hot-Pressing
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Manufacturing and Properties of CMCs Containing Ti Filler with Improved Intra-Matrix Bond
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Impregnation of 3D Woven Carbon Fibre Preforms by Electrophoretic Deposition of Single and Mix of Non Oxide Ceramic Nanoscale Powders, and Densification of the Composite Material
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Modelling of the CVI Processes
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Chemical Vapor Infiltration of Carbon Fiber Felts from Methane: Influence of Surface Area / Volume Ratios
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HomeAdvances in Science and TechnologyAdvances in Science and Technology Vol. 50CMC-Processing from Powders by Hot-Pressing

CMC-Processing from Powders by Hot-Pressing

Abstract:

Hot pressing is an effective way to densify powder compacts, especially during the inclusion of a second phase, such as particles, whiskers or fibers. In the present study, SiC/SiC and C/SiC composites were prepared by hot pressing via liquid phase sintering. Nano-SiC powder was used for matrix formation with sintering additives. The effects of preparation conditions such as sintering temperature, pressure and matrix composition, on the microstructural evolution and mechanical behaviors were discussed. Using micro-SiC powder and nano-SiC powder for matrix formation, the interaction between fiber and matrix was characterized. Because the matrix compositions can be easily modified in the CMC-processing from powders by hot pressing, the SiC-BN matrix was also studied in the present experiment. The inclusion of BN can either improve the machinability or provide oxidation resistance to the composite. BN was derived through an in-situ reaction between boron acid and urea by hot-pressing. Boric acid and urea were solved into the ethanol and mixed with nano-SiC particles, and then infiltrated into the fiber bundles. Correlations among microstructures, properties and compositions will be discussed.

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Advances in Science and Technology (Volume 50)

Pages:

75-82

DOI:

https://doi.org/10.4028/www.scientific.net/AST.50.75

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Online since:

October 2006

Authors:

Shao Ming Dong, Yu Sheng Ding, Zhen Wang, Qing Zhou, Xiang Yu Zhang, Dong Liang Jiang, Akira Kohyama

Keywords:

Ceramic Matrix Composite (CMC), Hot-Pressing, Mechanical Behavior, Microstructural Evolution

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