• Title/Summary/Keyword: Nitiding

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Effects of Low Temperature Plasma Nitriding Treatment on Corrosion behavior of Stainless Steel (스테인리스강의 내식성에 미치는 저온 플라즈마 질화의 영향)

  • Kim, H.G.;Bin, J.U.
    • Journal of the Korean Society for Heat Treatment
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    • v.24 no.1
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    • pp.3-9
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    • 2011
  • Plasma nitriding of stainless steels has been investigated over a range of temperature from 400 to $500^{\circ}C$ and time from 10 to 20 hours. Characterization of systematic materials was carried out in terms of mechanical properties and corrosion behaviors. The results showed that plasma nitriding conducted at low temperatures not only increased the surface hardness, but also improved the corrosion resistance of STS 316L, STS409L, and STS 420J2. It was found that plasma-nitriding treatment at $500^{\circ}C$ resulted in increasing the corrosion performance of STS 409L and STS 420J2, while STS 316L was observed with server and massive damage on surface due to the formation of CrN.

Solution Nitriding and Its Effect on the Austenitic Stainless Steels (오스테나이트계 스테인리스강에 대한 질소 고용화 처리 및 그 효과)

  • Huh, J.;Nam, T.W.
    • Journal of the Korean Society for Heat Treatment
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    • v.13 no.5
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    • pp.337-345
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    • 2000
  • As a case hardening process for stainless steels, nitriding is more preferred and widely used than carburizing which deterioates corrosion resistance severely. In order to add the nitrogen into the stainless steels, passive film on the surface must be removed effectively before nitriding. Conventional gas nitriding process is performed in the temperature range of 500 to $600^{\circ}C$ with $NH_3$ gas, which often leads to sensitization of stainless steels. In this study, we tried to activate passive film of austenitic stainless steels by heating at low pressure. ($900^{\circ}C$, $5{\times}10^{-2}$ Torr.) Nitriding was performed at the solution treatment temperature of $1100^{\circ}C$ with nitrogen molecules instead of $NH_3$ gas. An attainable nitrogen content in a case depends on the nitrogen gas pressure at constant nitriding temperature. A case depth is proportional to the square root of solution time, which suggests that inward diffusion of nitrogen follows the Fick's 2nd law. Surface nitrogen atoms are dissolved as interstitial solutes, or precipitated in the form of MN, $M_2N$ nitrides, which increase the case hardeness. Dissolved nitrogen in the case enhances the cavitation resistance of austenitic stainless steels dramatically.

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