Makarov A.V. et al. 2017 no.2(75)

ОБРАБОТКА МЕТАЛЛОВ № 2 (75) 2017 66 МАТЕРИАЛОВЕДЕНИЕ ing frictional treatment. Russian Journal of Nondestructive Testing , 2016, vol. 52, iss. 11, pp. 627–637. doi: 10.1134/ S1061830916110048. 18. Makarov A.V., Skorynina P.A., Volkova E.G., Osintseva A.L. Nanostrukturiruyushchie kombinirovannye friktsionno-termicheskie obrabotki austenitnoi stali 12Kh18N10T [Nanostructuring combined frictional-thermal treatment of 12Kh18N10N austenic steel]. Vektor nauki Tol’yattinskogo gosudarstvennogo universiteta = Vector of sciences. Togliatti State University , 2016, no. 4 (38), pp. 30–37. doi: 10.18323/2073-5073-2016-4-30-37. 19. Mamaev A.S., Chukin A.V. Gazotsiklicheskoe plazmennoe azotirovanie nerzhaveyushchei stali [Gas-cyclic plasma nitriding of stainless steel]. Izvestiya vysshikh uchebnykh zavedenii. Fizika = Russian Physics Journal , 2016, vol. 59, no. 9-2, pp. 244–249. (In Russian). 20. Gavrilov N.V., Mamaev A.S. Low-temperature nitriding of titanium in low-energy electron beam excited plasma. Technical Physics Letters , 2009, vol. 35, iss. 8, pp. 713–716. doi: 10.1134/S1063785009080082. 21. Kislitsin S.B., Vereshchak M.F., Manakova I.A., Ozernoi A.N., Satpaev D.A., Tuleushev Yu.Zh. Blistering i α↔γ-prevrashcheniya pri otzhige stali 12Kh18N10T, obluchennoi nizkoenergeticheskimi al’fa-chastitsami [Blister- ing and α’↔γ phase transitions at annealing of stainless steel C12Cr18Ni10Ti irradiated by low energy alpha-parti- cles]. Voprosy atomnoi nauki i tekhniki = Problems of atomic science and technology , 2013, no. 2 (84), pp. 17–22. 22. Kondo Y., Tanei H., Ushioda K., Maeda M., Abe Y. Effect of nitrogen on blister growth process during high temperature oxidation of steel. ISIJ International , 2012, vol. 52, no. 9, pp. 1644–1648. doi: 10.2355/isijinterna- tional.52.1644. 23. Lakhtin Yu.M., Kogan Ya.D., Shpis G.-I., Bemer Z. Teoriya i tekhnologiya azotirovaniya [Theory and tech- nology of nitriding]. Moscow, Metallurgiya Publ., 1991. 320 p. 24. Belashova I.S., Shashkov A.O. Kinetics of growth of the diffusion layer in nitriding by the thermogasocyclic method. Metal Science and Heat Treatment , 2012, vol. 54, iss. 5, pp. 315–319. doi: 10.1007/s11041-012-9504-5. Funding The work is done on the topic "Structure" No. 01201463331 (project No. 15-9-12-45) with the support of the Russian Foundation for Basic Research (project No. 15-08-07947). Electronic scanning microscopy, profilometry and microhardness testing were carried out in the Center of Plastometry, IMAS, UrB RAS. Article history Received 10 March 2017 Revised 10 April 2017 Accepted 10 May 2017