Effect of plasma nitriding parameters on the wear behaviour of AISI D6 tool steel
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Date
2013
Authors
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Publisher
Walter De Gruyter
Abstract
In the present investigation, the effects of plasma nitriding pressure and time on the structural and tribological characterization of AISI D6 grade cold work tool steel were studied. DC glow discharge plasma nitriding process under NH3 gas was performed at temperatures of 500 degrees C and at pressures of 150 Pa, 450 Pa and 800 Pa for durations of 2 h, 7 h and 10 h. The mass loss and the coefficient of friction were measured using a ball-on-disc wear test with 1.668 N, 4.143 N, and 9.113 N test loads. Cross-section and surface characterizations were evaluated using optical microscopy, SEM, and microhardness test techniques. The surface microhardness was found to increase with the nitriding time and the pressure. The wear resistance of the specimen strongly depends on the nitriding parameters and the applied test load in determining whether a plastic deformation of the surface layer has occurred or not.
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Keywords
Materials science, Electric discharges, Friction, Glow discharges, Microhardness, Nitriding, Nitrogen plasma, Steel, Tool steel, Tools, Wear resistance, Coefficient of frictions, Cold work tool steels, Dc-glow discharge plasmas, Microhardness tests, Nitriding parameters, Surface characterization, Surface microhardness, Tribological characterization, Plasma applications
Citation
Korkmaz, E. E. vd. (2013). “Effect of plasma nitriding parameters on the wear behaviour of AISI D6 tool steel”. Materials Testing, 55(6), 455-461.