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Surface Engineering Volume 37, 2021 - Issue 6: Special Issue: Properties
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Research Articles

Acceleration effects of rare earths on salt bath nitriding: diffusion kinetics and first-principles calculations

Chang Dua Institute for Advanced Materials and Technology, University of Science and Technology Beijing, Beijing, People’s Republic of China;b North China Institute of Science and Technology, Lang Fang, People’s Republic of China;c Hebei Key Laboratory of Safety Monitoring of Mining Equipment, Lang Fang, People’s Republic of ChinaCorrespondence[email protected]
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Jin Zhanga Institute for Advanced Materials and Technology, University of Science and Technology Beijing, Beijing, People’s Republic of China;d Beijing Key Laboratory for Corrosion, Erosion and Surface Technology, Beijing, People’s Republic of ChinaCorrespondence[email protected]
,
Le Zhange Science and Technology on Power Beam Processes Laboratory, AVIC Manufacturing Technology Institute, Beijing, People’s Republic of China
,
Yong Liana Institute for Advanced Materials and Technology, University of Science and Technology Beijing, Beijing, People’s Republic of China;d Beijing Key Laboratory for Corrosion, Erosion and Surface Technology, Beijing, People’s Republic of ChinaORCID Iconhttps://orcid.org/0000-0002-1840-2724
ORCID Icon &
Mengsha Fanga Institute for Advanced Materials and Technology, University of Science and Technology Beijing, Beijing, People’s Republic of China;d Beijing Key Laboratory for Corrosion, Erosion and Surface Technology, Beijing, People’s Republic of China
Pages 764-774 | Received 11 Nov 2019, Accepted 13 Jul 2020, Published online: 14 Aug 2020
 
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ABSTRACT

Nitriding can improve the surface hardness and wear resistance of metals, and rare earths can speed up this process. To study the mechanism of rare earths promoting salt bath nitriding, GX-8 steel was nitrided at different temperatures in two salt baths with and without rare earth Ce. First, structures and depths of the nitrided layers were investigated by microscopic observation, X-ray diffraction, GD-OES and microhardness tests. Then, the diffusion kinetics were calculated, and the atomic mechanisms of rare earth-assisted nitriding were studied by first principles. The kinetics calculations show that after adding Ce to the salt baths, the diffusion activation energy decreases, whereas the decomposition rate of active nitrogen atoms increases. The first-principles results indicate that Ce increases the energy and volume of the supercell of Fe–Cr alloy with N interstitial dissolution and reduces the stability of the supercell. These results demonstrate rare earths can accelerate nitriding at the atomic level.

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No potential conflict of interest was reported by the author(s).

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