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Surface Engineering Volume 18, 2002 - Issue 6
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Solutions to improve surface hardness of stainless steels without loss of corrosion resistance

L. Poirier L. Poirier ([email protected]) and J. P. Lebrun are with Nitruvid, 9 rue J. Poulmarch F ± 95100 Argenteuil, France and Y. Corre is with Nitruvid, Usine du parc, Rue de l-Ondaine, F ± 42490 Fraisses, France
,
Y. Corre L. Poirier ([email protected]) and J. P. Lebrun are with Nitruvid, 9 rue J. Poulmarch F ± 95100 Argenteuil, France and Y. Corre is with Nitruvid, Usine du parc, Rue de l-Ondaine, F ± 42490 Fraisses, France
&
J. P. Lebrun L. Poirier ([email protected]) and J. P. Lebrun are with Nitruvid, 9 rue J. Poulmarch F ± 95100 Argenteuil, France and Y. Corre is with Nitruvid, Usine du parc, Rue de l-Ondaine, F ± 42490 Fraisses, France
Pages 439-441 | Published online: 19 Jul 2013

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H Kahn, A H Heuer, G M Michal, F Ernst, R Sharghi-Moshtaghin, Y Ge, P M Natishan, R J Rayne & F J Martin. (2012) Interstitial hardening of duplex 2205 stainless steel by low temperature carburisation: enhanced mechanical and electrochemical performance. Surface Engineering 28:3, pages 213-219.
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H Dong. (2010) S-phase surface engineering of Fe-Cr, Co-Cr and Ni-Cr alloys. International Materials Reviews 55:2, pages 65-98.
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D. Hertz, J. P. Lebrun & H. Michel. (2008) Technologies for low temperature carburising and nitriding of austenitic stainless steel. International Heat Treatment and Surface Engineering 2:1, pages 32-38.
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T. Bell. (2007) Current status of supersaturated surface engineered S phase materials. International Heat Treatment and Surface Engineering 1:4, pages 148-151.
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Articles from other publishers (30)

M. Mamatha Gandhi, Sanjay Kumar, Ramaswamy Subbiah, K. Ramya Sree, D.S. Naga Malleswara Rao, J. Venkata Suresh & Ram Subbiah. (2023) Investigation of Wear Characteristics on Gas Nitrided AISI 304 Stainless Steel under Dry Sliding Conditions. E3S Web of Conferences 391, pages 01091.
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Sarbjeet Kaushal, Satnam Singh & Dheeraj Gupta. (2021) Processing strategy for high strength Ni-based hybrid composite clad on SS 316L steel through microwave heating. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 236:3, pages 190-203.
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Xiao Tao, Xiaoying Li, Hanshan Dong, Allan Matthews & Adrian Leyland. (2021) Evaluation of the sliding wear and corrosion performance of triode-plasma nitrided Fe-17Cr-20Mn-0.5N high-manganese and Fe-19Cr-35Ni-1.2Si high-nickel austenitic stainless steels. Surface and Coatings Technology 409, pages 126890.
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Ram. Subbiah, N. Sateesh, S.K Singh, S. Ravi Sekhar, B. Tanya & A. Anitha Lakshmi. (2020) Formation of Multiple Phase Microstructure and Wear Investigation on Treated AISI 904L SS by Low Temperature Ion Nitriding Process. E3S Web of Conferences 184, pages 01001.
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Abdelkader A. Meroufel. 2020. Corrosion and Fouling Control in Desalination Industry. Corrosion and Fouling Control in Desalination Industry 153 173 .
R Vafin, A Asylbaev, A Nikolaev, A Pesin & D Pustovoytov. (2019) Influence of the magnetic field at ion nitriding in glow discharge on probe characteristics, microhardness and structure of 08H18N10T (AISI 321) steel. Journal of Physics: Conference Series 1393:1, pages 012144.
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R Ramazanov, R Vafin, A Asylbaev & A Nikolaev. (2019) Effect of applying a magnetic field in ion nitriding on probe characteristics of glow discharge, microhardness and R6M5 steel structure. Journal of Physics: Conference Series 1393:1, pages 012121.
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Abdelrahman Farghali & Tatsuhiko Aizawa. (2018) Nitrogen Supersaturation Process in the AISI420 Martensitic Stainless Steels by Low Temperature Plasma Nitriding. ISIJ International 58:3, pages 401-407.
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Hamidreza Riazi, Fakhreddin Ashrafizadeh, Sayed Rahman Hosseini & Reza Ghomashchi. (2017) Influence of simultaneous aging and plasma nitriding on fatigue performance of 17-4 PH stainless steel. Materials Science and Engineering: A 703, pages 262-269.
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Sang-Ok Chong & Seong-Jong Kim. (2016) Synergistic damage mechanism of corrosion and cavitation-erosion for plasma ion nitrided 18Cr–8Ni–1.1Mn–0.43C stainless steel in seawater. Japanese Journal of Applied Physics 56:1S, pages 01AG03.
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Sang-Ok Chong & Seong-Jong Kim. (2016) Optimum temperature on corrosion resistance for plasma ion nitrided 316L stainless steel in sea water solution. Japanese Journal of Applied Physics 56:1S, pages 01AC04.
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A. Sitko, M. Szkodo & S. Kucharski. (2016) Influence of Nitriding and Laser Remelting on Properties of Austenitic Stainless Steel Type X10CrNi18-8 and Cavitation Erosion Resistance. Advances in Materials Science 16:2.
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F.M. Shuaeib & K. Benyounis. 2016. Reference Module in Materials Science and Materials Engineering. Reference Module in Materials Science and Materials Engineering.
J. Alphonsa, V.S. Raja & S. Mukherjee. (2015) Study of plasma nitriding and nitrocarburizing for higher corrosion resistance and hardness of 2205 duplex stainless steel. Corrosion Science 100, pages 121-132.
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J. Alphonsa, V.S. Raja & S. Mukherjee. (2015) Development of highly hard and corrosion resistant A286 stainless steel through plasma nitrocarburizing process. Surface and Coatings Technology 280, pages 268-276.
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J.P. Lebrun. 2015. Thermochemical Surface Engineering of Steels. Thermochemical Surface Engineering of Steels 633 647 .
M.A.J. Somers & T.L. Christiansen. 2015. Thermochemical Surface Engineering of Steels. Thermochemical Surface Engineering of Steels 557 579 .
Wei Ye & Xing Sheng Tong. (2014) Effect of Atmosphere Proportion and Nitriding Time on Plasma Nitriding of Duplex Stainless Steel. Advanced Materials Research 1061-1062, pages 61-64.
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M.A.J. Somers & T.L. Christiansen. 2014. Heat Treating of Irons and Steels. Heat Treating of Irons and Steels 439 450 .
A. Dalke, J. Gleißner, H.-J. Spies, R. Zenker & A. Franke. (2014) Einfluss der Behandlungsbedingungen beim Nitrocarburieren auf Härte, Verschleiß- und Korrosionswiderstand der Randschicht nichtrostender Stähle*. HTM Journal of Heat Treatment and Materials 69:4, pages 201-208.
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Wei Ye & Xing Sheng Tong. (2014) Effect of Temperature on Plasma Nitriding of AISI410 Martensitic Stainless Steel. Advanced Materials Research 1004-1005, pages 743-746.
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M. Asgari, A. Barnoush, R. Johnsen & R. Hoel. (2011) Microstructural characterization of pulsed plasma nitrided 316L stainless steel. Materials Science and Engineering: A 529, pages 425-434.
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Y.X. Qiao, Y.G. Zheng, W. Ke & P.C. Okafor. (2009) Electrochemical behaviour of high nitrogen stainless steel in acidic solutions. Corrosion Science 51:5, pages 979-986.
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Ling XIONG, Yong-jun HU, jian XU & Ji-long MENG. (2008) Ionic bombardment of stainless steel by nitrogen and nickel ions immersion. Transactions of Nonferrous Metals Society of China 18:2, pages 274-277.
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Thomas Bell. (2008) Current Status of Supersaturated Surface Engineered S-Phase Materials. Key Engineering Materials 373-374, pages 289-295.
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L. Nosei, S. Farina, M. Ávalos, L. Náchez, B.J. Gómez & J. Feugeas. (2008) Corrosion behavior of ion nitrided AISI 316L stainless steel. Thin Solid Films 516:6, pages 1044-1050.
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C.X. Li & T. Bell. (2006) Corrosion properties of plasma nitrided AISI 410 martensitic stainless steel in 3.5% NaCl and 1% HCl aqueous solutions. Corrosion Science 48:8, pages 2036-2049.
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Yvonna Jirásková, Oldřich Schneeweiss & Carsten Blawert. (2006) Changes in austenitic steel surface induced by thermal and implantation treatments studied by Mössbauer spectroscopy. Surface and Interface Analysis 38:4, pages 348-351.
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C.X Li & T Bell. (2004) Corrosion properties of active screen plasma nitrided 316 austenitic stainless steel. Corrosion Science 46:6, pages 1527-1547.
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J. Flis & M. Kuczynska. (2003) Impedance of Cr18Ni10 stainless steel in sulphate solutions after a low‐temperature plasma nitriding. Materials and Corrosion 54:12, pages 953-957.
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