ABSTRACT
The current review gives an insight into high-entropy alloys (HEAs) as a new possible binder material for the tungsten carbides, heavy tungsten alloys, and titanium carbo-nitride (Ti(C,N)) based cermet composites. The existing binder materials (for instance, Co, Ni, etc.), produced by powder metallurgy methods, have limited tool bits performance and short service life while mining applications; however, replacing existing binders with more accurate binder material is still a great challenge for researchers. Therefore, the present review is explicitly and precisely dedicated to the finding of the HEAs-based binder materials for the WC hard metals, heavy tungsten alloys, and Ti(C,N) cermet composites to produce high-performance drill bits associated with higher service life in the mining and cutting operations by improving the mechanical properties and tribo-corrosion performance. In this review, the performance of the HEAs over conventional binder materials has been compared and discussed concerning hardness, fracture toughness, oxidation, and tribo-corrosion resistance. The HEA-based binders showed low transformation kinetics and a lack of solubility as compared to the conventional binder. Hence, after optimising the composition, microstructures, properties, and costs of the HEAs-based binder materials, it can be estimated that in the upcoming year, the HEAs-based binder may replace the conventional binder.
Acknowledgments
The present research work is being supported by the NIT-Srinagar, MME Department for finding an alternative binder for tungsten carbide materials by providing valuable resources.
Disclosure statement
No potential conflict of interest was reported by the author(s).