The effects of Mo2C additions on the microstructure and sliding wear of TiC0.3N0.7–Ni3Al cermets

“…TiC 0.3 N 0.7 -Ni 3 Al-Mo 2 C cermets were prepared by vacuum sintering. Additionally, the addition of Mo 2 C efficiently decreased the grain size of Ti (C 0.3 , N 0.7 ), which was achieved by decreasing the solubility of the carbon nitride phase in the Ni 3 Al binder [67].…”

A Review of Research Progress on Ti(C,N)-Based Cermet Binder by Intermetallic Compounds and High-Entropy Alloys

“…TiC 0.3 N 0.7 -Ni 3 Al-Mo 2 C cermets were prepared by vacuum sintering. Additionally, the addition of Mo 2 C efficiently decreased the grain size of Ti (C 0.3 , N 0.7 ), which was achieved by decreasing the solubility of the carbon nitride phase in the Ni 3 Al binder [67].…”

A Review of Research Progress on Ti(C,N)-Based Cermet Binder by Intermetallic Compounds and High-Entropy Alloys

“…The addition of these elements to steel, especially Nb, Ti, and Ta results in stable MC-type carbides or carbon-nitrides that effectively reduce Cr-rich precipitate J o u r n a l P r e -p r o o f Journal Pre-proof formation [44][45][46]. Moreover, alloying TiC and Ti(C,N) with Mo or Mo 2 C increases interphase bond strength and enhances the homogeneity of the microstructure [47][48][49]. For example, the wettability between liquid Fe and TiC improves when Mo is added to the system FeMo with 3-5 wt% [50].…”

Synergistic effect of Nb and Mo on the microstructural formation of the Ti(C,N)-high chromium ferrous-based cermets

“…The most common industrial ceramics used in cermets are tungsten carbide (WC) and titanium carbide (TiC). Although both of these phases possess high Young's moduli, hardness, wear resistance, chemical and thermal stability, TiC has received more attention in recent years due to its lower density (4.93 g.cm -3 ) in comparison with WC (15.63 g.cm -3 ) [5][6][7].…”

Effect of selective laser melting process parameters on microstructural and mechanical properties of TiC–NiCr cermet