Authors:
Tamara Aleksandrov Fabijanić (Faculty of Mechanical Engineering and Naval Architecture, Croatia),
Johannes Pötschke (Fraunhofer-Institut für Keramische Technologien und Systeme IKTS, Germany),
Mateja Snajdar Musa (University of Rijeka, Croatia)
Abstract:
The need for Co replacement with alternative binders is imperative in hardmetal research due to environmental and health issues, high cost, and inferior corrosion properties. In combination with nano WC powder, alternative binders could approach the properties of WC-Co hardmetals with improved corrosion resistance. Nickel as a binder is one of the best cobalt alternatives due to its similar properties and enhanced electrochemical corrosion resistance. Previous studies indicated that adding niobium carbide to WC-Co hardmetals significantly refines grain size and limits grain growth. Depending on the amount of NbC in hardmetals, transverse rupture strength, hardness, and wear resistance can be improved. In contrast, TaNbC significantly improves oxidation, thermal and wear resistance, and hot-hardness. In this work, microstructural characteristics and mechanical properties were investigated by observing the influence of adding NbC and TaNbC to starting mixtures with Ni content of 9 wt.% and WC particle size of approximately 150 nm.
DOI:
https://doi.org/10.59499/WP225372172