KnE Engineering
ISSN: 2518-6841
The latest conference proceedings on all fields of engineering.
Effect of Nitrogen Implantation on the Structure and Properties of Austenitic Corrosion-Resistant Steels
Published date: Apr 15 2019
Journal Title: KnE Engineering
Issue title: XIX International scientific-technical conference “The Ural school-seminar of metal scientists-young researchers”
Pages: 41–46
Authors:
Abstract:
Work is devoted to studying the effect of implantation of nitrogen ions into the surface of austenitic stainless steels to improve their functional properties. Four grades of austenitic corrosion-resistant steels 02H16N10M2, 08H15AG10D2, 06H15AG9NM2 and 09H15AG9ND2 were taken after cold plastic deformation and annealing from 680 ∘C in water and subsequent implantation with N+ ions with different radiation dose: 0,01 и 0,1%. It was found that irradiation of austenitic stainless steels with nitrogen ions can be considered an effective way to increase the hardness and yield strength of steels in the operation in a corrosive environment.
Keywords: steel, austenite, nitrogen implantation, hardness, corrosion resistance
References:
[1] Kalin B. A. Radiatsionno-puchkovyye tekhnologii obrabotki konstruktsionnykh materialov / B. A. Kalin // Fizika i khimiya obrabotki materialov. 2001, № 4. P. 5-16.
[2] Goncharov V. V. Mikrotverdost’ poverkhnosti nerzhaveyushchey stali, modifitsirovannoy ionnoy implantatsii // Problemy mashinostroyeniya, 2013, T. 16, № 6. P. 47-51.
[3] Budzinski P., Polyanski K., Kobzev A.P. Izmeneniye svoystv poverkhnosti nerzhaveyushchey marki AISI316L, implantirovannoy azotom // Poverkhnost’.Rentgenovskiye, sinkhrotronnyye i neytronnyye issledovaniya. 2008, № 8. P. 80-85.
[4] Povysheniye iznosostoykosti stali 30KHGSN2A implantatsii ionov azota i ionov metalla / A. A. Yarnykh [i dr.] // Materialovedeniye. 2014. № 11. P. 30-34.
