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Modeling of steel hardening process at thermal and mechanical treatment
https://doi.org/10.22349/1994-6716-2018-96-4-07-13
Abstract
The article deals with modeling of thermomechanical processing of high-strength steels at the Gleeble 3800 research complex, simulating thermomechanical processing with various temperature and deformation parameters of rolling and with accelerated cooling to a predetermined temperature. The identity of steel hardening processes at the Gleeble 3800 complex and specialized rolling mills, as well as the possibility of obtaining steels of unified chemical composition, are shown.
About the Authors
A. S. Oryshchenko
NRC “Kurchatov Institute” – CRISM “Prometey”
Russian Federation
Russian Federation
Dr Sc. (Eng)
49 Shpalernaya St, 191015 St Petersburg
V. A. Malyshevsky
NRC “Kurchatov Institute” – CRISM “Prometey”
Russian Federation
Russian Federation
Dr Sc. (Eng)
49 Shpalernaya St, 191015 St Petersburg
E. A. Shumilov
NRC “Kurchatov Institute” – CRISM “Prometey”
Russian Federation
49 Shpalernaya St, 191015 St Petersburg
Russian Federation
49 Shpalernaya St, 191015 St Petersburg
References
1. Kovalchuk, M.V., Oryshchenko, A.S., Malyshevsky, V.A., Petrov, S.N., Shumilov, E.A., Problemy sozdaniya tekhnologichnykh ekonomolegirovannykh vysokoprochnykh stalei dlya arkticheskikh konstruktsii [Problems of technological economic-alloyed high-strength steels creation for arctic constructions], Voprosy Materialovedeniya,2017, No 2 (90), pp. 7–14.
2. Kovalchuk, M.V., Oryshchenko, A.S., Malyshevsky, V.A., Petrov, S.N., Shumilov, E.A., K voprosu ob unifikatsii khimicheskogo sostava vysokoprochnykh stalei dlya sudostroeniya [To the issue of unification of high-strength steels chemical composition for shipbuilding], Voprosy Materialovedeniya, 2018, No 1 (93), pp. 7–14.
3. Kozlov, E.V., Popova, N.A., Koneva, N.A., Fragmentirovannaya substruktura, formiruyushchayasya v OTsK-stalyakh pri deformatsii [Fragmented substructure formed in BCC steels at deformation], Izvestiya RAN, 2004, V. 68, No 10, pp. 1419–1427.
4. Bernshtein, M.L., Termomekhanicheskaya obrabotka stali[Termomechanical treatment of steel], Moscow: Metallurgiya, 1983, V. 2.
5. Gorynin, I.V., Khlusova, E.I., Nanostrukturirovannye stali dlya osvoeniya mestorozhdeny shelfa Severnogo Ledovitogo okeana [Nanostructured steels for developing of Arctic Ocean shelf fields], Vestnik RAN, 2010, No 2, pp. 1069–1075.
6. Hanlon, D.N., Vander Zwang S.J.S., The effect of plastic deformation of austenite on the kinetics of subsequent ferrite formation, ISN Int.,2001, No 9, pp. 1028–1036.
7. Zisman, A.A., Petrov, S.N., Ptashnik, A.V., Kolichestvennaya attestatsiya beinitomartensitnykh struktur vysokoprochnykh stalei metodami skaniruyushchei elektronnoi mikroskopii [Quantification of bainite-martensite structures of high-strength steels by electrical microscopy scanning methods], Metallurg, 2014, No 11, pp. 91–95.
8. Kruglova, A.A., Orlov, V.V., Khlusova, E.I., Golovanov, A.V., Vliyanie parametrov termomekhanicheskoi obraboki na strukturu i svoistva goryachekatanoi tolstolistovoi nizkolegirovannoi stali uluchshennoi svarivaemosti [Influence of thermic-mechanical treatment options on structure and properties of hot-rolled thick-plate low-alloyed alloying improved steel], Proizvodstvo Prokata, 2006, No 3, pp. 21–28.
9. Khlusova, E.I., Kruglova, A.A., Orlov, V.V., Vliyanie tekhnologicheskikh rezhimov i khimicheskogo sostava na razmer austenitnogo zerna v nizkouglerodistoi stali [Influence of technological modes and chemical composition on size of austenite seed in low-carbon steel], Metallovedenie i Termicheskaya Obrabotka Metallov, 2007, No 12, pp. 8–12.
10. Khlusova, E.I., Mikhailov, M.S., Orlov, V.V., Osobennosti formirovaniya struktury tolstolistovoi nizkouglerodistoi stali pri termomekhanicheskoi obrabotke [Features of structure formation of thick-plate low-alloyed steel at thermic-mechanical treatment], Deformatsiya i Razrushenie, 2007, No 6, pp. 18–25.
11. Korotovskaya, S.A., Nesterova, E.V., Orlov, V.V., Khlusova, E.I., Vliyanie parametrov plasticheskoi deformatsii na formirovanie ultramelkozernistoi struktury v nizkolegirovannykh beinitnykh stalyakh [Influence of plastic deformation on formation of ultra-fine-grained structure in low-alloyed bainite steels], Voprosy Materialovedeniya, 2011, No 1 (65), pp. 100–109.
12. Oryshchenko, A.S., Malyshevsky, V.A., Petrov, S.N., Shumilov, E.A., Vzaimosvyaz urovnya legirovaniya, struktury i mekhanicheskikh svoistv vysokoprochnoistali [Interconnection between alloying level, structure and mechanical properties of high-strength steel], Izvestiya vuzov: Chernaya Metallurgiya, 2018, V. 61, No 3, pp. 179–186.
Review
For citations:
Oryshchenko A.S., Malyshevsky V.A., Shumilov E.A. Modeling of steel hardening process at thermal and mechanical treatment. Voprosy Materialovedeniya. 2018;(4(96)):7-13. (In Russ.) https://doi.org/10.22349/1994-6716-2018-96-4-07-13
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