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2010
Conference Paper
Titel
The influence of particle temperature, particle velocity and coating surface temperature on the sliding wear performance of TiO2-Cr2O3 coatings
Abstract
In this work the sliding wear resistance of HVOF and APS-sprayed coatings from two experimental TiO2-10-20 wt.%Cr2O3 fused and crushed feedstock powders was investigated. During the spraying process the particle temperatures and velocities were mapped in the cross section of the spray jet at different spray distances. In addition, the coating surface temperature was monitored. Coating microstructures and phase composition were studied by SEM and XRD, respectively. The elastic modulus (E) and hardness (H) values were measured via indepth sensing indentation. The unidirectional ball-on-disk sliding wear test was performed at room temperature against a tungsten carbide ball (sliding speed 0.05 m/s, normal force 90 N). The increase of the particle temperature and velocity leads to an increase of hardness and Youngs modulus of the coatings, thereby increasing their sliding wear resistance. The sliding wear resistance can be correlated with the H3/E2 ratio better than with the hardness alone. The sliding wear resistance was also sensitive to the coating surface temperature reached during deposition.