Sliding wear behavior of SPS processed TaC-containing Ti(CN)-WC-Ni/Co cermets against Silicon Carbide

Dense (>98.5%) TiCN-WC-Ni/Co cermets with or without TaC are prepared by spark plasma sintering technique at 1400°C and 70MPa pressure for 3min and their friction and wear properties are investigated against commercially available hard counterbody silicon carbide ball at 5, 10 or 20N load. Core-r...

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Bibliographic Details
Published in:Wear 2017-04, Vol.376-377 (PB), p.1570-1579
Main Authors: Verma, Vikas, Kumar, B.V. Manoj
Format: Article
Language:English
Subjects:
Cermets
Coefficient of friction
Crack initiation
Diamond pyramid hardness
Dry machining
Fracture mechanics
Fracture toughness
Frictional wear
Hardness
Morphology
Plasma sintering
Silicon carbide
Sliding friction
Sliding wear
Spalling
Spark plasma sintering
TaC
Ti(CN)
TiCN
Titanium carbonitride
Tungsten carbide
Wear
Wear rate
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Summary:Dense (>98.5%) TiCN-WC-Ni/Co cermets with or without TaC are prepared by spark plasma sintering technique at 1400°C and 70MPa pressure for 3min and their friction and wear properties are investigated against commercially available hard counterbody silicon carbide ball at 5, 10 or 20N load. Core-rim morphology is observed in SEM images of sintered samples which results due to dissolution and reprecipitation process. Vickers Hardness and fracture toughness varied from 15–17GPa and 8.79 to 9.51MPam1/2. Nano hardness of core-rim-binder phases of cermets lie between 11.14–26.01GPa. Maximum hardness and fracture toughness were obtained for Ti(CN)-5WC-10Ni-10Co-5TaC (in wt%) cermet. With change in the cermet composition and sliding load, coefficient of friction varied from 0.3 to 1.1. Wear rate of cermets varied from 4.7×10−7mm3/Nm to 2.2×10−6mm3/Nm and of worn SiC ball from 4.4×10−7mm3/Nm to 1.5×10−6mm3/Nm. Hard debris oxides are responsible for higher COF at low load of 5N and their compaction leads to the formation of tribolayer at high load of 20N. The worn surfaces of cermets are characterized by microcracking, tribolayer formation and spalling. The addition of TaC in TiCN-WC-Ni/Co cermets led to the refined carbide size having lowest contiguity of ceramic phase and attributed to reduced wear. Present research contributes in context of dry machining conditions and is conducted to explore the potential of new cermet material in severe wear conditions against hard material. •Present research is to explore the potential of new cermet material in severe sliding wear conditions against hard material.•Effect of TaC as ternary carbide on mechanical and tribological behavior of SPSed processed TiCN-WC-Ni/Co cermets is studied.•Present research contributes in context of dry wear conditions.•The wear mechanisms are particularly elucidated in terms of cermet composition and sliding load.
ISSN:0043-1648
1873-2577
DOI:10.1016/j.wear.2017.02.013