Deposition Behaviors of Solid Phases in Liquid-Solid Two-Phase Particles in High Velocity Oxy-Fuel Spraying

Abstract: Three types of composite coatings were deposited by high velocity oxy-fuel (HVOF) spraying using metal-clad WC-18Co and SiC-50Co cermet powders, and sintered-crushed Al 2 O 3 -75Ni composite powders. Liquid-solid two-phase state of the sprayed particles with two different structures was achieved prior to their impingement on the substrate. The effects of particle structure and HVOF spraying parameters on volume fraction of the solid phase were investigated. The distribution of ceramic particle size inside coat… Show more

“…The wear performance depends on its microstructure and the volume fraction of carbides, in which the coatings that have higher volume fraction will perform better wear resistance [11]. Moreover, the coatings with higher mean free path distances between the reinforcing WC particles have higher wear rates [12]. It has been observed the distribution of tungsten carbide (WC) consists of angular shape, which is in light contrast dissolve into metallic binder of Co and Ni, which is in dark contrast.…”

Wear and Corrosion Behavior of Tungsten Carbide Based Coating on Carbon Steel

“…The wear performance depends on its microstructure and the volume fraction of carbides, in which the coatings that have higher volume fraction will perform better wear resistance [11]. Moreover, the coatings with higher mean free path distances between the reinforcing WC particles have higher wear rates [12]. It has been observed the distribution of tungsten carbide (WC) consists of angular shape, which is in light contrast dissolve into metallic binder of Co and Ni, which is in dark contrast.…”

Wear and Corrosion Behavior of Tungsten Carbide Based Coating on Carbon Steel

Microstructure and properties of high velocity oxygen fuel sprayed (WC-Co)-Ni coatings

Characteristic comparison of stacked WC-based coatings prepared by high-velocity oxygen-fuel spray and electric contact strengthening