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Direct Current and Pulsed Direct Current Plasma Nitriding of Ferrous Materials a Critical Review

REFERENCES 1. Allenstein A.N., Lepienski C.M., Buschinelli A.A., Brunatto S.F . (2013), Plasma nitriding using high H2 content gas mixtures for a cavitation erosion resistant steel, Applied Surface Science , Vol. 277, 15-24. 2. Alphonsa I., Chainani A., Raole P.M., Ganguli B., John P.I. (2002), A study of martensitic stainless steel AISI 420 modified using plasma nitriding, Surface and Coatings Technology , Vol. 150, 263-268. 3. Alves Jr. C., da Silva E.F., Martinelli A.E. (2001), Effect of workpiece geometry on the uniformity of nitrided

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FMR study of samples obtained by nitriding and nitrides reduction of nanocrystalline iron

1 Introduction Nitriding technique is one of the most important surface-modification techniques used for solid materials. Nitriding reaction is of great industrial interest due to its influence on the surface hardness as well as wear and abrasive resistance of the nitrided surface [ 1 – 10 ]. Nitriding technology has been widely used also in improving material fatigue life, corrosion resistance and resistance of surface to softening effect. The behavior and properties of nitrogen in metals has been investigated extensively by several scientific groups

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Tribology of nitrided-coated steel-a review

References [1] Zeghni, A., Hashmi M., The effect of coating and nitriding onthe wear behaviour of tool steels, Journal of MaterialsProcessing Technology 155-156 (2004) 1918-1922. [2] Podgornik, B., Vizintin, J., Wanstrand, O., Larssons, M.,Hogmark, S., Ronkainen, H., Holmberg, K., Tribologicalproperties of plasma nitrided and hard coated AISI 4140 steel,Wear 249 (2001) 254-259. [3] Devaraju, A., Elaya Perumal, A., Alphonsa, J., Kailas, S.,Venugopal, S., Sliding wear behavior of plasma nitridedAustenitic Stainless Steel Type AISI 316LN in the

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The influence of laser re-melting on microstructure and hardness of gas-nitrided steel

References [1] Altinsoy I, Onder K.G, Celebi Efe F.G, Bindal C., Gas nitriding behaviour of 34CrAlNi7 nitriding steel, Acta Physica Polonica A 2014, vol.125, s. 414-416. [2] Małdziński L, Tacikowski J., ZeroFlow gas nitriding of steels. In: Mittemeijer EJ, Somers MAJ, editors. Thermochemical Surface Engineering of Steels Improving Materials Performance, Woodhead Publishing Series in Metals and Surface Engineering, Elsevier, 2015, vol. 62, s. 459-483. [3] Michalski J., Tacikowski J., Wach P., Ratajski J

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Effect of Plasma Nitriding Process Conditions on Corrosion Resistance of 440B Martensitic Stainless Steel

References 1. Basu A., Dutta Majumdar J., Alphonsa J., Mukherjee S., Manna I. (2008), Corrosion resistance improvement of high carbon low alloy steel by plasma nitriding, Materials Letters, Vol. 62, No. 17-18, 3117-3120. 2. Łępicka M., Grądzka-Dahlke M. (2013), Effect of Heat Treatment and Plasma Nitriding on Corrosion Resistance of X90CrMoV18 Martensitic Stainless Steel, Acta Mechanica et Automatica, Vol. 7, No. 3, 155-159. 3. Li C. X., Bell T. (2006), Corrosion properties of plasma nitrided AISI 410

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Plasma Nitriding as a Prevention Method Against Hydrogen Degradation of Steel

References Y. Archakov, Vodorodoustojchivost stali, Metallurgia, Moskva, 1978. E. Łunarska, O. Czerniajewa, A. Nakonieczny, Influence of surface treatments on 40HM steel resistance to general, pitting and stress corrosion, Surface Engineering 4 (2000) 12-19, (in Polish). E. Łunarska, J. Michalski, Hydrogen behavior in the iron surface layer modified by plasma nitriding and ion boronising, Werkstoffe und Korrosion 51 (2000) 1-9. P. Kula, The comparison

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Structure and Properties of the Glow Discharge Nitrided Layers Produced on Austenitic Steel

References W. Liang S. Juncai X. Xiaolei "Low pressure plasma arc source ion nitriding compared with glow-discharge plasma nitriding of stainless steel", Surface and Coatings Technology 145 (2001) 31 - 37. J. R. Sobiecki T. Borowski H. Matysiak K. J. Kurzydłowski T. Wierzchoń, Increase of durability of stainless steel using the glow discharge treatment, Proc. of 2nd. Inter. Conf. Heat Treat. and Surf. Eng. in Automotive Applications, Riva del Garda, Italy 2005, CD-Rom. E. Menthe K

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References 1. Baszkiewicz J., Kamiński F. (2006), Materials corrosion, Publishing Office of Warsaw University of Technology, Warszawa. 2. Bell T., Sun Y. (2002), Low temperature plasma nitriding and carburising of austenitic stainless steels, Advanced Materials And Processes, Vol. 160, No. 6, 49-51. 3. Głowacka M. (1996), Metallography, Publishers of Gdansk Technical University, Gdansk. 4. Gösta W. (1985), Base of corrosion and metals protection, WNT, Warszawa. 5. Grubb J

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Influence of Nitriding and Laser Remelting on Properties of Austenitic Stainless Steel Type X10CrNi18-8 and Cavitation Erosion Resistance

., Zukun H.: Low pressure plasma arc source ion nitriding of austenitic stainless steel. Surface and Coatings Technology, 124 (2000), 93-96. 8. Liang W., Xiaolei X., Jiujun X., Yaqin S.: Characteristic of low pressure plasma arc source ion nitrided layer on austenitic stainless steel at low temperature. Thin Solid Films, 391 (2001), 11-16. 9. Borowski T., Trojanowski J., Sobiecki R., Wierzchoń T.: Low temperature glow-discharge nitriding of austenitic steel – medicine applification aspects. Surface Engineering, 3 (2005), 21-26. 10. Trojanowski J

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Kinetics of nanocrystalline iron nitriding

References VDI (1990). VDI - Lexikon Werkstofftechnik. Dusseldorf: VDI-Verlag. Bell, T. (1977). Source Book on Nitriding (pp. 266 - 278). Metals Park: American Society of Metals. Mongis, J., Peyre, J. P., & Tournier, C. (1984). Nitriding of microalloyed steels. Heat Treatment of Metals. 11(3), 71 - 75. (2006). Nanomaterials Handbook. Boca Raton: CRC/Taylor & Francis. Gu, J. F., Bei, D. H., Pan, J. S., Lu, J., & Lu, K. (2002

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