Tribo-Map of CVD Diamond Film Sliding against Silicon Nitride in Air

Su Lin Chen; Bin Shen; Fang Hong Sun

doi:10.4028/www.scientific.net/KEM.589-590.405

Paper Titles

Research on Stress Intensity Factor of the Interface Crack in the Hard Cladding Material Structure under Mechanical Impact Load
p.384

Effect of Boronizing on Cutting Performance of Ti(C,N)-Based Cermet Tool
p.390

Stress Analysis on the Cutting Edge Based on Design of Micro-Cutting Tool
p.395

Simulation of Temperature Distribution in HFCVD Diamond Films Growth on WC-Co Drill Tools in Large Quantities
p.399

Tribo-Map of CVD Diamond Film Sliding against Silicon Nitride in Air
p.405

Study on the Mechanical Properties of DLC Thin Films Doped with Cu
p.411

Research on the Mathematical Model of Helical Groove of the End Mill Based on the Grinding Wheel Attitude
p.416

Research on Cutter Location Optimization of Tapered Ball End Mill Finish Flank Milling Ruled Surface Blade
p.421

Experimental Study and Simulation Analysis on Ball-End Cutter Milling Titanium Alloy Based on the Geometric Parameters Optimization
p.427

HomeKey Engineering MaterialsKey Engineering Materials Vols. 589-590Tribo-Map of CVD Diamond Film Sliding against...

Tribo-Map of CVD Diamond Film Sliding against Silicon Nitride in Air

Abstract:

The tribo-map of typical CVD diamond film exhibiting the interaction between the wear rate, friction coefficient and friction conditions would help optimize the working parameters of CVD diamond film coated tools and wear-resistance components. The tribological behaviors of CVD diamond films sliding against Si₃N₄ balls were studied by conducting a group of tests on the ball-on-plate type reciprocating friction tester under several sliding speeds and normal loads in the ambient air. The examined MCD films and NCD films were deposited on square flat WC-Co substrates. The worn surfaces on the diamond films were observed by SEM and the wear volumes of diamond films were measured by surface profilometer. The results indicated that the influences of the sliding speeds and normal loads on the friction coefficients for both MCD films and NCD films were obvious. When the load was 6 N, MCD film obtained the lowest friction coefficient of 0.11 at the sliding velocity of 0.2 m/s, while for NCD film the minimum value was 0.07 as the sliding speed was 0.13 m/s. The wear rate of the MCD film decreased as the load improved, while for the NCD film, the tendency was just the opposite. The influence of sliding speed on the wear rate of the MCD films was not distinct, while for the NCD films, the sliding velocity greatly affects their wear rate. The wear rates of most NCD films were around 0.2×10^-7 mm³/Nm, while those of the MCD films fluctuated from 0.6×10^-7~1.6×10^-7 mm³/Nm. To elucidate the effect of operating environment on wear mechanism of diamond/ Si₃N₄ tribo-pair, the tribo-map was developed.