Combustion Synthesis of Si₃N₄-BN-SiC Composites by in-situ Introduction of BN and SiC

Abstract: Si3N4-BN-SiC composites present desirable potential for engineering applications because of their improved mechanical properties and oxidation resistance. In present work, Si3N4-BN-SiC composites were successfully fabricated by combustion synthesis using Si, Si3N4 diluent, B4C, and Y2O3 as initial powders. BN and SiC were in situ introduced into Si3N4 ceramics by the reaction between Si, B4C, and N2 gas. The obtained Si3N4-BN-SiC composites were composed of elongated β-Si3N4 matrix and hollow spherical composi… Show more

“…2,3 With the emergence of superhard and difficult-to-cut workpieces, traditional cemented carbide tools can no longer meet the modern high-speed turning requirements of high precision, high efficiency, and high stability. 4,5 Developing new cutting tools has become a crucial task in the turning field. Ceramic materials have the advantages of high hardness, temperature resistance, and wear resistance, so they are regarded as possible cutting tool materials with great potential.…”

“…Turning is one of the most widely used workpiece processing methods in the manufacturing industry, and the quality of cutting tools is an important decisive factor to determine the final quality of the workpieces during the cutting process 2,3 . With the emergence of superhard and difficult‐to‐cut workpieces, traditional cemented carbide tools can no longer meet the modern high‐speed turning requirements of high precision, high efficiency, and high stability 4,5 . Developing new cutting tools has become a crucial task in the turning field.…”

Finite element simulation and experimental analysis of B₄C‐TiB₂‐SiC ceramic cutting tools

“…2,3 With the emergence of superhard and difficult-to-cut workpieces, traditional cemented carbide tools can no longer meet the modern high-speed turning requirements of high precision, high efficiency, and high stability. 4,5 Developing new cutting tools has become a crucial task in the turning field. Ceramic materials have the advantages of high hardness, temperature resistance, and wear resistance, so they are regarded as possible cutting tool materials with great potential.…”

“…Turning is one of the most widely used workpiece processing methods in the manufacturing industry, and the quality of cutting tools is an important decisive factor to determine the final quality of the workpieces during the cutting process 2,3 . With the emergence of superhard and difficult‐to‐cut workpieces, traditional cemented carbide tools can no longer meet the modern high‐speed turning requirements of high precision, high efficiency, and high stability 4,5 . Developing new cutting tools has become a crucial task in the turning field.…”

Finite element simulation and experimental analysis of B₄C‐TiB₂‐SiC ceramic cutting tools