Журналы →  Chernye Metally →  2015 →  №9 →  Назад

Development of Metallurgy in Russia and CIS
Название Improvement of quality of liquid metal and castings from medium-alloy high-strength steel
Автор E. A. Chernyshev, A. D. Romanov, E. Yu. Polikhina, E. A. Romanova
Информация об авторе

Nizhniy Novgorod State Technical University (Nizhniy Novgorod, Russia):

E. A. Chernyshev, Dr. Eng., Prof.;
A. D. Romanov, Head of scientific and research lab., e-mail: nil_st@nntu.nnov.ru
E. Yu. Polikhina, Post-graduate
E. A. Romanova, Post-graduate

Реферат

The comparative analysis and assessment of efficiency of the ways which are used in metallurgy for improvement of quality, reliability and operability of products from medium alloy high-strength steel is provided in article. Ways of extra oven refinement of liquid steel, with their advantages and shortcomings are considered. Technical characteristics of industrial technology and the modes of melting are given in the arc steel-smelting furnace with the subsequent extra oven pumping out of a stream of liquid steel of a perlite class in the installation developed for this way. Positive influence of extra oven pumping out on mechanical and office properties of metal of castings, the content of gases and nonmetallic inclusions in the vacuumized steel in comparison with a usual way is shown without processing by vacuum is shown. Positive influence of extra oven pumping out on elimination of foundry defects and quality of a surface of shaped steel castings is noted. This information can be useful to students, graduate students and lecture of state educational institution of higher professional education of metallurgical specialties, and also metallurgical engineers and employees of research institutes.

Ключевые слова Steel, extra oven pumping out, physical-mechanical properties, alloying, structure, hydrogen, flakes, break, nonmetallic inclusions, working capacity, quality of metal
Библиографический список

1. Chernyshov E. A., Romanov A. D., Romanova E. D. Sudostroitelnye stali serii HY (Shipbuilding steels HY). Chernye Metally = Ferrous metals. 2014. No. 8. pp. 27–31.
2. Malyshevskiy V. A., Semicheva T. G., Khlusova E. I. Novye korpusnye stali dlya sudostroeniya (New hull steels for shipbuilding). Sudostroenie = Shipbuilding. 2004. No. 5. pp. 107–110.
3. Krylov V. V. O proektirovanii korpusov mnogotselevykh podvodnykh lodok iz vysokoprochnykh staley i titanovykh splavov (About the design of hulls of general purpose submarines made of highstrength steels and titanium alloys). Sudostroenie = Shipbuilding. 2006. No. 1. pp. 47–52.
4. Oryshchenko A. S., Golosienko S. A. Novoe pokolenie vysokoprochnykh sudostroitelnykh korpusnykh staley (New generation of high-strength shipbuilding hull steels). Sudostroenie = Shipbuilding. 2013. No. 4. pp. 73–76.
5. Chernyshov E. A., Romanov A. D., Romanova E. D. Razvitie metallurgicheskikh tekhnologiy proizvodstva i polucheniya otvetstvennykh izdeliy iz vysokoprochnykh sudostroitelnykh staley (Development of metallurgical technologies of manufacturing and obtaining of main products from high-strength shipbuilding steels). Chernye Metally = Ferrous metals. 2015. No. 3. pp. 33–37.
6. Gorynin I. V. et al. Ekonomnolegirovannye stali s nanomodifitsirovannoy strukturoy dlya ekspluatatsii v ekstremalnykh usloviyakh (Economically alloyed steels with nanomodified structure for exploitation in extreme conditions). Voprosy materialovedeniya = Inorganic Materials: Applied Research. 2008. No. 2. pp. 7–11.
7. Vladimirov N. F., Golubev A. Ya. Razvitie tekhnologii proizvodstva listovykh korpusnykh staley (Development of plate hull steel production technology). Voprosy materialovedeniya = Inorganic Materials: Applied Research. 1999. No. 3. pp. 45–51.
8. Holmquist T. J. Strength and fracture characteristics of HY-80, HY-100, and HY-130 steels subjected to various strains, strain rates, temperatures, and pressures. Final report was prepared by Honeywell Inc., Armament Systems Division. For Naval surface warfare center research and technology department. September, 1987. 64 p.
9. High performance steel and titanium castings. National materials advisory board. National Academy of Sciences — National Academy of Engineering. Report NMAB-296 for department of defense. February, 1973. 155 p.
10. Base Materials for Critical Application: Requirements for Low Alloy Steel Plate, Forgings, Castings, Shapes, Bars, and Heads of HY 80/100/130 and HSLA 80/100. U.S. Navy, Naval Sea Systems Command, NAVSEA Technical Publication T9074-BD-GIB-010/0300. Original - August 2002. Revision 2 – December 2012. 228 p.
11. Voskoboynikov V. G., Kudrin A. M., Yakushev A. M. Obshchaya metallurgiya (General metallurgy). Moscow : Akademkniga, 2002. 769 p.
12. Kozlov L. Ya., Kolokoltsev V. M., Vdovin K. N. et al. Proizvodstvo stalnykh otlivok (Steel casting production). Moscow : MISiS, 2003. 352 p.
13. Povolotskiy D. Ya. Raskislenie stali (Steel deoxidation). Moscow: Metallurgiya, 1972. 208 p.
14. Mastryukov B. S. Teplofizika metallurgicheskikh protsessov (Thermal physics of metallurgical processes). Moscow : MISiS, 1996. 268 p.

Language of full-text русский
Полный текст статьи Получить
Назад