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Abstract
In the present study, solid particle erosion resistance of high-velocity oxy-fuel (HVOF)-sprayed WC-CoCr coatings was evaluated. Erosion testing was conducted using alumina (Al2O3) powder as the erodent with three different impact angles (30, 60, and 90°) and impact velocity was kept constant. The coatings were deposited using two different powders; one was composed of conventional WC particles and second one contained nanoscale particles mixed with CoCr binder material. Erosion testing was carried out at room temperature using an air-jet erosion test setup. The effect of varying impact angles was studied and discussed with the help of scanning electron microscopy images of worn surfaces of coatings. The results showed that coating properties like microhardness and fracture toughness have a strong influence on the erosion behavior. During erosion testing, material was removed by fracturing and pullout of WC grains from the binder matrix. The morphology of the eroded surface also showed cutting, lip, and groove formation in the binder matrix caused by the repetitive impacts of erodent particles. It was observed that coating with nano-WC grains exhibited higher erosion resistance compared to conventional coating.
ACKNOWLEDGEMENT
The authors gratefully acknowledge the facilities provided by M/s Industrial Processors and Metallizers Pvt. Ltd. (IPM), New Delhi, India, for the successful completion of experimental work. The authors thank Rahul Sood (Technical Director, IPM Pvt. Ltd.) for his wonderful suggestions about thermal spraying and in-flight diagnostics study.
Review led by Dong Zhu