wear behavior of laser cladded ni based-wc-la2o3 hybrid composite coating on h13-steel at elevated and ambient temperatures

hybrid composite coatings show obvious advantages over single composite coatings due to their multipurpose applications. furthermore, nickel-based alloy matrix composite coatings are extensively used in corrosive, wear and fatigue environments because of their good wear and corrosion resistance. in this study, nicocral/tungsten carbide/1-4 wt% lanthanum oxide composite coatings are deposited on h13 hot work tool steel by laser cladding. the wear resistance of the coatings is evaluated in sliding against alumina ball both at room temperature and 700 °c. the results indicate that the wear rate of the coatings decreases at room temperature by adding 1-3 wt% lanthanum oxide (72.55×10-6 mm^3 n^1 m^1 for nicocral/tungsten carbide/2 wt% lanthanum oxide). also, the friction coefficient decreases at this level of lanthanum oxide and for the samples with 2 and 3 wt% lanthanum oxide, the steady-state of wear starts earlier than the others. at the high temperature of 700 °c, the presence of lanthanum oxide has changed the wear mechanism from adhesive to abrasive and improved the wear performance of the coatings. at higher amounts of lanthanum oxide, debris removals is observed on the coatings where it resulted in the three-body and severe wear.