Spark Plasma Sintering of CBN-WC-10Co Composites

Xiao Liang Shi; Gang Qin Shao; Xing Long Duan; R.Z. Yuan

doi:10.4028/www.scientific.net/KEM.336-338.1053

Paper Titles

Preparation of PZT Slurry with High Solids Loading and Low Viscosity for Gelcasting
p.1038

Magnetic Alignments of Ba-Ferrite Particles in Suspension
p.1042

Synthesis of Fine Grain Ti₃SiC₂ by Spark Plasma Sintering with Additive of Aluminum
p.1046

Fabrication of TiAl Intermetallic by Spark Plasma Sintering
p.1050

Spark Plasma Sintering of CBN-WC-10Co Composites
p.1053

Preparation of Porous Alumina Ceramics by Spark Plasma Sintering
p.1056

Comparison of Spark Plasma Sintering and Hot Pressing of MgAlON
p.1060

Liquid Phase Sintering of α-Si₃N₄ by Spark Plasma Sintering
p.1062

Effect of Aluminum on Fabrication of Ti₃SiC₂ by Mechanical Alloying and Spark Plasma Sintering
p.1065

HomeKey Engineering MaterialsKey Engineering Materials Vols. 336-338Spark Plasma Sintering of CBN-WC-10Co Composites

Spark Plasma Sintering of CBN-WC-10Co Composites

Abstract:

Nanocomposite WC-10Co powder produced by spray pyrolysis-continuous reduction & carbonization technology and cubic boron nitride (CBN) plated with titanium by vacuum vapor deposit were used, and this paper adopted spark plasma sintering (SPS) process to prepare CBN enhanced ultrafine WC-10Co cemented carbide cermets composite material. The microstructure and mechanical properties of CBN-WC-10Co composites were investigated. The results show that CBN-WC-10Co composites consolidated by spark plasma sintering can reach 95.0 % relative density, and transverse rupture strength (TRS) is 1050 MPa, the average grain size of cermets matrix is less than 420 nm, and CBN-WC-10Co composites with excellent properties are achieved. The CBN still remains very good crystal shape after 1240°C spark plasma sintering, and there is not obvious clearance between CBN plated with titanium and the cermets matrix, the coated titanium layer can not only improve the thermal stability of CBN, but also increase the properties of CBN-WC-10Co composites.