LI H,KHOR K A,YU LG,et al.Microstructure modifications and phase transformation in plasma-sprayed WC Co coatings following post-spray spark plasma sintering[J].Surface & Coatings Technology,2005,194:96-102.
[2]
LIAO H,NORMAND B,CODDET C.Influence of coating microstructure on the abrasive wear resistance of WC/Co cermet coatings[J].Surface and Coatings Technology,2000,124:235-242.
[3]
CHO J E,HWANG S Y,KIM K Y.Corrosion behavior of thermal sprayed WC cermet coatings having various metallic binders in strong acidic environment[J].Surface & Coatings Technology,2006,200:2653-2662.
[4]
SOUZA V,NEVILLE A.Linking electrochemical corrosion behaviour and corrosion mechanisms of thermal spray cermet coatings (WC-CrNi and WC/CrC-CoCr)[J].Materials Science and Engineering,2003,A352:202-211.
JIN H W,KIM M C,PARK C G.Friction-induced solid state amorphization from non-equilibrium solid solution phase in Fe-Cr-B-Ni-Mo spray coatings[A].Electron Microscopy:Its Role in Materials Science[C].Mike Meshii Symposium.Proceedings of Symposia,2003.279-286.
[7]
ZIMMERMAN S,KELLER H,SCHWIER G.New carbide based materials for spraying[A].Thermal spray 2003:Advancing the Science & Applying the Technology[C].Ohio,USA:Asm international,Materials Park,2003.227-233.
[8]
STOICA V,AHMED R,ITSUKAICHI T,et al.Sliding wear evaluation of hot isostatically pressed (HIPed) thermal spray cermet coatings[J].Wear,2004,257:1103-1124.
[9]
QIAO Y F,FISCHER T E,DENT A.The effects of fuel chemistry and feedstock powder structure on the mechanical and tribological properties of HVOF thermal-sprayed WC Co coatings with very fine structures[J].Surface and Coatings Technology,2003,172:24-41.
[10]
SUDAPRASERT T,SHIPWAY P H,MCCARTNEY D G.Sliding wear behaviour of HVOF sprayed WC Co coatings deposited with both gas-fuelled and liquid-fuelled systems[J].Wear,2003,255:943-949.
