Abstract: WC-12%Co coatings were deposited by detonation-gun spraying with nano composite and conventional powder feedstock. The sliding wear resistance of the coatings was investigated using reciprocating tester under dry sliding wear conditions. The morphology, microstructure and composition change were analyzed. The results show that nanostructured coatings have more homogeneous and denser microstructure than their conventional counterparts under the identical spraying conditions, in spite of more decomposition of carbide in nano composite powders. The wear resistance of the conventional coatings is better than that of nanostructured coatings in the same microhardness level, especially at the higher load. The wear mechanism of conventional coatings is microcutting. Concerning nanostructured WC-Co coatings, the wear is dominated by the plastic deformation under load of 10 N. With increasing the applied load, nano WC particles as anti-wear phase are removed from the coating surface together with the binder phase. In addition, there is delamination removal at weak interface due to decarburization. The two reasons above lead to lower wear resistance of nanostructured coatings at the higher load.

Key words: detonation-gun spraying; WC-12%Co; nanostructured coating; wear resistance