155

The article discusses the features of structure formation during thermal
cycling treatment of hypo eutectoid structural steels 20, 40X and 65G. The process of
thermal cycling treatment with heating without phase recrystallization and with complete
phase recrystallization has been studied. Thermal cyclic treatment without phase
recrystallization forms residual thermal stresses, causing an increase in the density of
dislocations, the development of the initial stages of recrystallization. The maximum
level of residual stresses is formed after 5 cycles. Thermal cyclic treatment with
complete phase recrystallization leads to the development of recrystallization processes
of varying intensity on the surface in the core of the steel sample. After 4 cycles, a
collective recrystallization is possible on the surface with obtaining a grain size
difference. In the core, the processes of polygonization and “recrystallization in place”
take place.

  • Ссылка в интернете
  • DOI
  • Дата создание в систему UzSCI 06-09-2022
  • Количество прочтений 155
  • Дата публикации 30-06-2022
  • Язык статьиIngliz
  • Страницы234-241
English

The article discusses the features of structure formation during thermal
cycling treatment of hypo eutectoid structural steels 20, 40X and 65G. The process of
thermal cycling treatment with heating without phase recrystallization and with complete
phase recrystallization has been studied. Thermal cyclic treatment without phase
recrystallization forms residual thermal stresses, causing an increase in the density of
dislocations, the development of the initial stages of recrystallization. The maximum
level of residual stresses is formed after 5 cycles. Thermal cyclic treatment with
complete phase recrystallization leads to the development of recrystallization processes
of varying intensity on the surface in the core of the steel sample. After 4 cycles, a
collective recrystallization is possible on the surface with obtaining a grain size
difference. In the core, the processes of polygonization and “recrystallization in place”
take place.

Имя автора Должность Наименование организации
1 Yusupov A.A. teacher TSTU
2 Berdiev D.M. teacher TSTU
3 Konstantinov V.M. teacher Belarusian National Technical University
4 Tkachenko G.A. teacher Belarusian National Technical University
Название ссылки
1 V.K. Fedyukin, M.Y. Smagorinsky. “Thermocyclic processing of metals and machine parts”. 1989. 241
2 I.N. Kidin. “Physical bases of electro thermal treatment of metals and alloys”. 1969. 376
3 A.S. Tikhonov. “Thermo cyclic treatment of steels, alloys and composite materials”. 1984. 168
4 V.S. Biront. “Theory of heat treatment of metals”. 2007. 234
5 A.M. Guriev, L.G. Voroshnin, Y.P. Kharayev. “Thermocyclic and chemical-thermo cyclic hardening of steels”. 2005. 36
6 A.M. Guryev, L.G. Voroshnin. Cyclic thermal influence during HT and HTO of tool steels. “Fundamental problems of modern materials science”. 2005. 37
7 A.I. Yevdokimov. “Cyclic hardening of CVG steel”. 2002. 33
8 B.K. Tilabov. Improving the wear resistance of parts with hard-alloy coatings by heat treatment. “News. HEO. Ferrous metallurgy”. 2003. 35
9 V.A. Batayev, A.A. Batayev, A.P. Alkhimov. “Methods of structural analysis of materials and quality control of parts”. 2007. 224
10 Ch. Shiras, T. Assano. “Micro lens for coupling a semiconductor laser to a singlemode fiber”. 1986. 537
11 W.H. Cheng, C.S. Wang, C.J. Hwang. Highly efficient power coupling between “Galas lasers and tapered hemispherical end multimode fibers”. 1982. 3409
12 G.P. Fetisov, F.A. Garifullin. “Materials science and technology of materials”. 2014. 397
13 D.M. Berdiev, A.A. Yusupov. Improvement of wear resistance gear’s teeth by cyclic hardening with induction heating. “Vesting mechanical engineering”. 2020. 50
14 D.M. Berdiev, A.A. Yusupov. Improving the Wear Resistance of Gear Teeth by Cyclic Quenching with Inductive Heating. “Russian Engineering Research”. 2020. 473
15 G.A. Tkachenko, V.M. Konstantinov. Electro-chemical-thermal treatment of fasteners to tillage’s machines. “Metallurgy: Republic. Interdepartmental” 2008. 358
16 V.M. Konstantinov, G.A. Tkachenko. Hardening of bistro-wear parts of soilcultivating plows with nitro-carburizing with local sic- lick induction heating. “Hardening technologies and coatings”. 2011. 44
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