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51Для цитирования: i^H, ШМ^ , Lygdenov Burial, Guryev Alexey. ^ДЙШ^ШМЙ^А^
[Research Progress of Metal surface heat treatment technology] // Grand Altai Rearch & Education / Nauka i obrazovanie Bol'sogo Altaá: сетевое издание». 2016. выпуск 1 (8). [Электронный ресурс] URL: http://rectors.altstu.ru/ru/periodical/archiv/2018/1/articles/1_2.pdf (Дата доступа: 08.06.2018 г.)
DOI 10.25712/ASTU.2410-485X.2018.01.02 УДК 621.785.5
(Research Progress of Metal surface heat treatment technology)
, I^H1, ШШ^*1,2 , Lygdenov Burial1,3, Guryev Alexey1,4 1 - (ФИШХ 430073) ;
2 - ПШШЩШШт&Ш&ШШ (ФИШХ 430073);
3 - East-Siberian State University of Technology and Management
(Ulan-Ude, Russia) 4 - Polzunov Altai State Technical University (Barnaul, Russia) * Corresponding Author [email protected] [email protected], [email protected], [email protected]
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[3] ijlim 2009.
[4] im 2005.
[5] 2005.
[6] Honda T 1. Changes in the microstructure of 13Cr-2Ni-2Mo stainless steels through the quenching process by induction heating[J]. International Journal of Materials & Product Technology, 2012, 45(1/2/3/4):31-40.
[7] Ling J I, Shao S Y. Analysis of Induction Heating and Quenching-and-Tempering Process of Small Size 42CrMo Bars[J]. Iron & Steel, 2011, 224(1):31-51.
[8] ^X.^^ffi^ife^ [ M] 2004.258-260
[9] 2006.
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[11] MXMMft, 2013.
^ffiXfM, 2002, 15(2):4-7.
[13]WfflM. 2015.
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[15] Shukla P, Nath S, Wang G, et al. Surface property modifications of silicon carbide ceramic following laser shock peening[J]. Journal of the European Ceramic Society, 2017, 37(9):3027-3038.
[16]Iwaszko J, Strzelecka M. Effect of cw-CO2 laser surface treatment on structure and properties of AZ91 magnesium alloy[J]. Optics & Lasers in Engineering, 2016, 81:63-69.
[17] ffl/j^,^IM. rn^m,
2009, 23(05):89-91.
[18] Wei D.Q, Li X.K, Ren X.L. ,Research Progress of Electron Beam Surface Modification^]. Hot Working Technology, 2016, 45(18):19-23.
[19] Wei D, Xin W, Wang R. Study of electron-beam scanning on the surface of aluminum alloy with nano-sized Al 2 O 3 -Al powder[C]// International Conference on Advanced Technology of Design and Manufacture. IET, 2010:357-360.
[20] Ormanova M, Petrov P, Kovacheva D. Electron beam surface treatment of tool steels[J]. Vacuum, 2017, 135:7-12.
References
[1] Gu.F. Study on the surface heat treatment of steel [J]. Science and Technology Outlook,2016,26(01):64.
b
[2] Pan. Modern surface heat treatment technology. Beijing: Mechanical Industry Press, 2017.
[3] Wang S.X. Metal heat treatment principle and process. Harbin: Harbin Institute of Technology Press, 2009.
[4] Pan. Surface modification heat treatment technology and application. Beijing: Mechanical Industry Press, 2005.
[5] Jiang J., Peng Q.F. Surface Quenching Technology. Beijing: Chemical Industry Press, 2005.
[6] Honda T 1. Changes in the microstructure of 13Cr-2Ni-2Mo stainless steels through the quenching process by induction heating[J]. International Journal of Materials & Product Technology, 2012, 45(1/2/3/4):31-40.
[7] Ling J.I., Shao S.Y. Analysis of Induction Heating and Quenching-and-Tempering Process of Small Size 42CrMo Bars[J]. Iron & Steel, 2011, 224(1):31-51.
[8] Chen T.Y. Stainless steel surface treatment technology [M] . Beijing: Chemical Industry Press, 2004.258-260.
[9] Jiang J, Peng Q.F. Surface Quenching Technology [M]. Chemical Industry Press, 2006.
[10] Zhou W., Mao X.N., Ge P., Hong Q., Qi Y.L. Experimental study on flame heat hardening of titanium alloy sheet[J]. Surface Technology, 2009, 38(02): 17-18.
[11] Zhi D.G. Practical Heat Treatment Process Code [M]. Machinery Industry Press, 2013.
[12] Ding J.C., Shan J.G, Ren J.L. Research status and development trend of high energy beam alloying technology [J]. China Surface Engineering, 2002, 15(2): 4-7.
[13] Cao G.F. Laser Processing. Beijing: Chemical Industry Press, 2015.
[14] Hu M.L., Xie C.S., Tao Z.Y. Laser Surface Strengthening Technology and Its Application[J]. Mechanical Workers(Hot Working), 2003(07):5-8+74.
[15] Shukla P., Nath S., Wang G., et al. Surface property modifications of silicon carbide ceramic following laser shock peening[J]. Journal of the European Ceramic Society, 2017, 37(9):3027-3038.
[16] Iwaszko J, Strzelecka M. Effect of cw-CO2 laser surface treatment on structure and properties of AZ91 magnesium alloy[J]. Optics & Lasers in Engineering, 2016, 81:63-69.
[17] Zhao T.X., Tian X.M., Gao. B. Tu Yufeng. Research Progress of Electron Beam Surface Treatment[J]. Material Review, 2009, 23(05): 89-91.
[18] Wei D.Q, Li X.K, Ren X.L. ,Research Progress of Electron Beam Surface Modification^]. Hot Working Technology, 2016, 45(18):19-23.
[19] Wei D., Xin W., Wang R. Study of electron-beam scanning on the surface of aluminum alloy with nano-sized Al 2 O 3 -Al powder[C]// International Conference on Advanced Technology of Design and Manufacture. IET, 2010:357-360.
[20] Ormanova M., Petrov P., Kovacheva D. Electron beam surface treatment of tool steels[J]. Vacuum, 2017, 135:7-12.
