Journal
JOURNAL OF ADVANCED CERAMICS
Volume 8, Issue 1, Pages 19-38Publisher
SPRINGEROPEN
DOI: 10.1007/s40145-018-0297-x
Keywords
SiC ceramics; SiCf; SiC composites; joining; joint strength; interfacial behavior
Categories
Funding
- National Natural Science Foundation of China [51572112]
- National Key R&D Program of China [2017YFB0310400]
- 333 Talents Project [BRA2017387]
- Six Talent Peaks Project [TD-XCL-004]
- Qing Lan Project of Jiangsu Province [[2016]15]
- Innovation/Entrepreneurship Program [[2015]26]
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Silicon carbide (SiC) has been widely concerned for its excellent overall mechanical and physical properties, such as low density, good thermal-shock behavior, high temperature oxidation resistance, and radiation resistance; as a result, the SiC-based materials have been or are being widely used in most advanced fields involving aerospace, aviation, military, and nuclear power. Joining of SiC-based materials (monolithic SiC and SiCf/SiC composites) can resolve the problems on poor processing performance and difficulty of fabrication of large-sized and complex-shaped components to a certain extent, which are originated from their high inherent brittleness and low impact toughness. Starting from the introduction to SiC-based materials, joining of ceramics, and joint strength characterization, the joining of SiC-based materials is reviewed by classifying the as-received interlayer materials, involving no interlayer, metallic, glass-ceramic, and organic interlayers. In particular, joining processes (involving joining techniques and parameter conditions), joint strength, interfacial microstructures, and/or reaction products are highlighted for understanding interfacial behavior and for supporting development of application-oriented joining techniques.
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