Influence of process time on microstructure and properties of 17-4PH steel plasma nitrocarburized with rare earths addition at low temperature |
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Authors: | M.F. Yan R.L. Liu |
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Affiliation: | School of Materials Science and Engineering, Harbin Institute of Technology, Harbin 150001, PR China |
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Abstract: | 17-4PH stainless steel was plasma nitrocarburized at 430 °C for different time with rare earths (RE) addition. Plasma RE nitrocarburized layers were studied by optical microscope, scanning electron microscope equipped with an energy dispersive X-ray analyzer, X-ray diffraction, microhardness tests, pin-on-disc tribometer and anodic polarization tests. The results show that rare earths atoms can diffuse into the surface of 17-4PH steel. The modified layer depths increase with increasing process time and the layer growth conforms approximately to the parabolic law. The phases in the modified layer are mainly of γ′-Fe4N, nitrogen and carbon expanded martensite (α′N) as well as some incipient CrN at short time (2 h). With increasing of process time, the phases of CrN and γ′-Fe4N increase but α′N decomposes gradually. Interestingly, the peaks of γ′-Fe4N display a high (2 0 0) plane preferred orientation. The hardness of the modified specimen is more than 1340 HV, which is about 3.7 times higher than that of untreated one. The friction coefficients and wear rates of specimens can be dramatically decreased by plasma RE nitrocarburizing. The surface hardness and the friction coefficients decrease gradually with increasing process time. The corrosion test shows that the 8 h treated specimen has the best corrosion resistance with the characterization of lower corrosion current density, a higher corrosion potential and a large passive region as compared with those of untreated one. |
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Keywords: | Low temperature plasma nitrocarburizing Rare earths (RE) Microstructure Wear Corrosion |
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