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Bodycote Prize Paper - First Prize

Plasma surface engineering of precipitation hardening stainless steels

M. EsfandiariDepartment of Metallurgy and Materials, The University of Birmingham, Birmingham B15 2TT, UKCorrespondence[email protected]
&
H. DongDepartment of Metallurgy and Materials, The University of Birmingham, Birmingham B15 2TT, UK
Pages 86-92 | Published online: 19 Jul 2013

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Armystron G. F. Araújo, M. Naeem, Luciane N. M. Araújo, Maxwell S. Libório, Miguel R. Danelon, Renan M. Monção, Luciana S. Rossino, Michelle C. Feitor, Rubens M. do Nascimento, Thércio H. C. Costa & Rômulo R. M. Sousa. (2022) Duplex treatment with Hastelloy cage on AISI 5160 steel cutting tools. Materials Science and Technology 38:8, pages 499-506.
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Mario Sergio Della Roverys Coseglio. (2017) Sulphide stress cracking of 17-4 PH for applications in oilfield components. Materials Science and Technology 33:16, pages 1863-1878.
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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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Articles from other publishers (21)

Zhongli Han, Junqiang Lu, Chunyu Yin, Ping Lai, Wenhua Zhuang, Ling Li, Jiamei Wang, Lefu Zhang & Xianglong Guo. (2022) Composition, microstructure, and phase evolution of 17-4PH stainless steel with a work-hardened layer in the low-temperature plasma nitriding process. Surface and Coatings Technology 451, pages 128950.
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I. M. Kossanova, A. T. Kanayev, M. A. Jaksymbetova, A. U. Akhmedyanov & K. Zh. Kirgizbayeva. (2022) Effect of Electrolytic-Plasma Surface Treatment on Structure, Mechanical, and Tribological Properties of Grade 1 Wheel Steel. Metallurgist 66:7-8, pages 822-829.
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Francesca Borgioli. (2022) The “Expanded” Phases in the Low-Temperature Treated Stainless Steels: A Review. Metals 12:2, pages 331.
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Ming Wu, Zhihao Zhao, Xu Wang, J.C. Huang & Xinyi Liu. (2020) Synergistic Effects of a Sulfate-Reducing Bacteria and an Applied Stress on the Corrosion Behavior of 17-4 PH Stainless Steel After Different Heat Treatments. International Journal of Electrochemical Science 15:1, pages 208-222.
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Mario Sergio Della Roverys CoseglioXiaoying LiHanshan DongBrian J. ConnollyPhil DentChris Fowler. (2019) Corrosion Behavior of Active-Screen Plasma Nitrided 17-4 PH (H1150D) Steel in H 2 S/CO 2 -Containing Environments . CORROSION 75:10, pages 1237-1245.
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Alla Bespalova, Vladimir Lebedev, Olga Frolenkova, Alexey Knysh, Olga Dashkovskaya & Oksana Fayzulina. (2019) Increasing efficiency of plasma hardening by local cooling of surface by air with negative temperature. Eastern-European Journal of Enterprise Technologies 4:12 (100), pages 52-57.
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C J Scheuer, F I Zanetti, R P Cardoso & S F Brunatto. (2018) Ultra-low—to high-temperature plasma-assisted nitriding: revisiting and going further on the martensitic stainless steel treatment. Materials Research Express 6:2, pages 026529.
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Qinglong Zhang, Zhanqi Hu, Wenwen Su, Haili Zhou, Changxin Liu, Yulin Yang & Xiaowen Qi. (2017) Microstructure and surface properties of 17-4PH stainless steel by ultrasonic surface rolling technology. Surface and Coatings Technology 321, pages 64-73.
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Carlos Eduardo Pinedo, Sharys Ivonn Varela Larrotta, Arthur Seiji Nishikawa, Hanshan Dong, Xiao-Ying Li, Rodrigo Magnabosco & André Paulo Tschiptschin. (2016) Low temperature active screen plasma nitriding of 17–4 PH stainless steel. Surface and Coatings Technology 308, pages 189-194.
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Jun Wang, Yuanhua Lin, Dezhi Zeng, Jing Yan & Hongyuan Fan. (2012) Effects of the Process Parameters on the Microstructure and Properties of Nitrided 17-4PH Stainless Steel. Metallurgical and Materials Transactions B 44:2, pages 414-422.
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Yunan Prawoto & Barry Dillon. (2011) Failure Analysis and Life Assessment of Coating: The Use of Mixed Mode Stress Intensity Factors in Coating and Other Surface Engineering Life Assessment. Journal of Failure Analysis and Prevention 12:2, pages 190-197.
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Teng-Shih Shih, Yung-Sen Huang & Chi-Fan Chen. (2011) Constituted oxides/nitrides on nitriding 304, 430 and 17-4 PH stainless steel in salt baths over the temperature range 723 to 923K. Applied Surface Science 258:1, pages 81-88.
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Wei Li, Xiaoying Li & Hanshan Dong. (2011) Effect of tensile stress on the formation of S-phase during low-temperature plasma carburizing of 316L foil. Acta Materialia 59:14, pages 5765-5774.
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M.F. Yan & R.L. Liu. (2010) Martensitic stainless steel modified by plasma nitrocarburizing at conventional temperature with and without rare earths addition. Surface and Coatings Technology 205:2, pages 345-349.
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M.F. Yan & R.L. Liu. (2010) Influence of process time on microstructure and properties of 17-4PH steel plasma nitrocarburized with rare earths addition at low temperature. Applied Surface Science 256:20, pages 6065-6071.
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R.L. Liu & M.F. Yan. (2010) Improvement of wear and corrosion resistances of 17-4PH stainless steel by plasma nitrocarburizing. Materials & Design (1980-2015) 31:5, pages 2355-2359.
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R.L. Liu & M.F. Yan. (2010) The microstructure and properties of 17-4PH martensitic precipitation hardening stainless steel modified by plasma nitrocarburizing. Surface and Coatings Technology 204:14, pages 2251-2256.
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M.F. Yan, R.L. Liu & D.L. Wu. (2010) Improving the mechanical properties of 17-4PH stainless steel by low temperature plasma surface treatment. Materials & Design 31:4, pages 2270-2273.
Crossref
R.L. Liu, M.F. Yan & D.L. Wu. (2010) Microstructure and mechanical properties of 17-4PH steel plasma nitrocarburized with and without rare earths addition. Journal of Materials Processing Technology 210:5, pages 784-790.
Crossref
Ruiliang LIU, Mufu YAN & Danlei WU. (2009) Effect of rare earths on mechanical properties of plasma nitrocarburized surface layer of 17-4PH steel. Journal of Rare Earths 27:6, pages 1056-1061.
Crossref
H. Dong, M. Esfandiari & X.Y. Li. (2008) On the microstructure and phase identification of plasma nitrided 17-4PH precipitation hardening stainless steel. Surface and Coatings Technology 202:13, pages 2969-2975.
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