A Study of the Effect of Nickel on Structural and Phase Transformations and Properties of High-Strength Medium-Carbon Complexly Alloyed Steel
The effect of nickel content in a high-strength medium-carbon complexly alloyed steel on the structural and phase transformations, location of critical points, quantitative parameters of microstructure and critical quenching rate is studied. Thermokinetic diagrams of decomposition of supercooled aus...
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| Published in | Metal science and heat treatment Vol. 61; no. 11-12; pp. 681 - 686 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
Springer US
01.03.2020
Springer Springer Nature B.V |
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| Abstract | The effect of nickel content in a high-strength medium-carbon complexly alloyed steel on the structural and phase transformations, location of critical points, quantitative parameters of microstructure and critical quenching rate is studied. Thermokinetic diagrams of decomposition of supercooled austenite in the steel with original composition are plotted and the characteristic types of microstructure forming under cooling at different rates are described. The effect of nickel on the combination of mechanical properties of thick rolled sheets after quenching and low-temperature tempering is determined. The results obtained may be used for development of high-strength cold-resistant steels and modes of their heat hardening. |
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| AbstractList | The effect of nickel content in a high-strength medium-carbon complexly alloyed steel on the structural and phase transformations, location of critical points, quantitative parameters of microstructure and critical quenching rate is studied. Thermokinetic diagrams of decomposition of supercooled austenite in the steel with original composition are plotted and the characteristic types of microstructure forming under cooling at different rates are described. The effect of nickel on the combination of mechanical properties of thick rolled sheets after quenching and low-temperature tempering is determined. The results obtained may be used for development of high-strength cold-resistant steels and modes of their heat hardening. |
| Audience | Academic |
| Author | Poletskov, P. P. Koptseva, N. V. Nikitenko, O. A. Efimova, Yu. Yu Gushchina, M. S. |
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| References | E. De Moor, P. J. Gibbs, J. G. Speer, et al., “Strategies for third-generation advanced high-strength steel development,” Iron Steel Technol., No. 11, 133 – 144 (2010). Armox 500T. “High hardness armor with extraordinary toughness properties” [electronic resource], URL: https://www.ssab.com/products/brands/armox/armox-500t (date of call 17.07.2018). R. E. Gliner, “Developments in production of high-strength sheet steel in Sweden,” Proizvod. Prokata, No. 10, 11 – 18 (2009). LarionovVPKovalchukVACold Resistance and Wear of Machine Parts and Welded Joints [in Russian]1976NovosibirskNauka208 p ABREXTM “Abrasion resistant steel plate” [electronic resource], URL: http://www.nssmc.com/en/product/plate/list/03.html (date of call 17.07.2018). Strategy of Development of Ferrous Metallurgy in Russia for 2014 – 2020 and for up to the year of 2030, Order of the Ministry of Industry and Commerce of Russia No. 839 of 05.05.2014 [electronic resource], URL: http://www.consultant.ru/document/cons doc LAW 165502/ (date of call 25.06.2018). V. M. Salaganik, P. P. Poletskov, and M. O. Artamonova, “’Termodeform’ research and production complex for creating novel technologies,” Stal’, No. 4, 104 – 107 (2014). “Prospects of development of the production of rolled sheets from high-strength and wear-resistant grades of steel in Russia,” Metall-Kur’er, May, 34 – 37 (2016). Ya. M. Potak, High-Strength Steels [in Russian], Metallurgiya, Moscow (1972), 208 p. BelyakovLNPetrakovAFPokrovskayaNGShal’kevichABNovel high-strength steelsMetalloved. Term. Obrab. Met.199782428 High-Strength and Ultrahigh-Strength TM-steels Voestalpine Steel Division [electronic resource], https://www.voestalpine.com/stahl/en/Brands/alform-R (date of call 25.06.2018). SolntsevYPTitovaTISteels for the North and Siberia [in Russian]2002St. PetersburgKhIMIZDAT352 p “Durostat® made of wear-resistant steel” [electronic resource], URL: http://www.voestalpine.com/stahl/en/Brands/durostat-R (date of call 17.07.2018). Millux Protection 380/400/450/500 Datasheet [electronic resource], URL: https://www.miilux.fi/wp-content/uploads/2013/03/miilux protection datasheet 2012 web.pdf (date of call 17.07.2018). EVERHARDTM “Abrasion-resistant steel plate” [electronic resource], URL: http://www.jfe-steel.co.jp/en/products/plate/catalog/c1e-004.pdf (date of call 17.07.2018). High hard armor — Mars® 240 [electronic resource], URL: http://industeel.arcelormittal.com/products/protection-steels/high-hard-armor/ (date of call 17.07.2018). A. Kh. Gekht, “Use of high-strength steels for crane making,” Tekhnol. Mashinostr. Organiz. Proizvod., No. 2, 23 – 26 (2014). V. M. Salganik, S. V. Denisov, P. P. Poletskov, et al., “Physical modeling of processes of production of hot-rolled sheets with a unique set of properties,” Vest. Magnitogorsk. Gos. Tekh. Univ. Im. G. I. Nosova, No. 3, 37 – 39 (2014). Hardox® 500 Tuf. “Introducing the new generation Hardox® wear plate” [electronic resource], URL: https://www.ssab.com/products/brands/hardox/products/hardox-500-tuf (date of call 17.02.2018). P. Kah, P. Layus, and J. Martikainen “Influence of alloying elements on the low-temperature properties of steel” [electronic resource], URL: https://www.researchgate.net/publication/280575690 (date of call 18.07.2018). M. V. Chukin, V. M. Salganik, P. P. Poletskov, et al., “Main kinds and fields of application of strategic high-strength rolled sheets,” Vest. Magnitogorsk. Gos. Tekh. Univ. Im. G. I. Nosova, No. 4, 41 – 44 (2014). VP Larionov (482_CR19) 1976 482_CR18 482_CR15 482_CR13 482_CR14 482_CR11 482_CR12 LN Belyakov (482_CR16) 1997; 8 YP Solntsev (482_CR17) 2002 482_CR1 482_CR2 482_CR3 482_CR4 482_CR5 482_CR6 482_CR7 482_CR8 482_CR20 482_CR9 482_CR10 482_CR21 |
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| SubjectTerms | Alloy steels Alloying Carbon Characterization and Evaluation of Materials Chemistry and Materials Science Classical Mechanics Cooling rate Critical point Engineering Thermodynamics Heat and Mass Transfer High strength International economic relations Low temperature Low temperature resistance Materials Science Mechanical properties Metallic Materials Microstructure Nickel Phase transitions Quenching Specialty metals industry Steel |
| Title | A Study of the Effect of Nickel on Structural and Phase Transformations and Properties of High-Strength Medium-Carbon Complexly Alloyed Steel |
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