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Журналы →  Chernye Metally →  2019 →  №10 →  Назад

Rolling and Other Metal Forming Processes
Название Development and mastering of a technology for production of seamless bimetallic tubes for transporting abrasive bulk materials
Автор A. I. Komarov, A. V. Safyanov, V. Ya. Osadchiy, A. P. Kolikov
Информация об авторе

Chelyabinsk Pipe Rolling Plant (Chelyabinsk, Russia):

A. I. Komarov, Chairman of the Board
A. V. Safyanov, Cand. Eng., Technologist of Production Technological Dept., e-mail: anatoliy.safyanov@chelpipe.ru

 

Moscow Technological University (Moscow, Russia):
V. Ya. Osadchiy, Dr. Eng., Prof., Advisor of General Director Chelyabinsk Pipe Rolling Plant

 

National University of Science and Technology “MISiS” (Moscow, Russia):
A. P. Kolikov, Dr. Eng., Prof., Metal Forming Dept., e-mail: apkolikov@mail.ru
Реферат

The results of the study of production of bimetallic wear-resistant pipes with a diameter of 219–550 mm and a thickness of the Kh12 steel cladding wear-resistant layer of 55.0 to 75.0% of the total thickness of the tube wall and the plastic layer of 30L carbon steel have been presented. Modes of heating bimetallic billets in methodical furnaces and rolling in the Tube-Rolling Mill (TPU 8-16″) pilgrim mill were proposed, which allow to eliminate or significantly reduce defects on pipes. This technology is confirmed by positive results when rolling bimetallic tubes of size Dt × St (S30L + SKh12) = 273 × 16(5 + 11) from a centrifugally cast billet of size Dz × Sz × Lz = 440 × 85 × 2160 mm.
Ключевые слова Bimetallic tube, TPU 8-16″ with a pilgrim mill, methodical furnace, centrifugal cast bimetallic billet, pipelines for transporting abrasive materials and slurries, drawing ratio, metal consumption coefficient
Библиографический список

1. Danilov F. А., Gleyberg А. Z., Balakin V. G. Hot rolling tubes. Moscow: Metallurgiya, 1962. 331 p.
2. Verderevsky V. А., Gleyberg А. Z., Nikitin А. S. Tube rolling mills. Moscow: Metallurgiya, 1983. 240 p.
3. Danchenko V. N., Kolikov А. P., Romantsev B. А., Samusev S. V. Tube production technology: tutorial for universities of Russia and Ukraine. Moscow: Internet Inzhiniring, 2002. 638 p.
4. Stasovsky Yu. N., Krivchenko Yu. S., Babenko G. S. Design of modern metal forming production: tutorial. Dnepropetrovsk: Monolit, 2009. 745 p.
5. Chukmasov А. S., Bondar N. P., Sapogova А. Е. et. al. Wear-resistant bimetallic hot-rolled tubes from centrifugally cast billets. Proizvodstvo trub. 1979. No. 5. pp. 17–21.
6. Dolinin D. P., Petrov А. К., Tulin N. А. et. al. The structure and properties of VAR bimetal. Stal. 1983. No. 1. pp. 44–48.
7. Bogatov А. А., Pavlov D. А., Nukhov D. Sh. Screw rolling continuously cast structure steel grades: tutorial. Yekaterinburg: izdatelstvo Uralskogo universiteta, 2017. 164 p.
8. Hot pilger rolling steel tubes using improved technological solutions and equipment. SMS Meer. Huttentechnik. 2005. 31 p.

9. Briselat J., Bem Ch., Walther T., Pereira G. The new piercing for the pilger rolling line of Vallourec. Chernye Metally. 2018. No. 8. pp. 58–63.
10. Strategic program of reconstruction at Chelyabinsk Pipe Plant — in the market objective [Electronic resource] Available at: www.chthz/ru/pub/cnews1/13.12.2005.
11. Osadchy V. Ya. Innovation technologies ensuring import substitution. Production of tubes for nuclear industry, defense and oil and complexes of Russia. Proceedings «Works of XXII International scientific and technical conference Innovations and import substitution in tube industry. «Tubes – 2016». Part. 1. RosNITI: Chelyabinsk, 2016. pp. 65–67.
12. Safyanov A. V. et. al. Fabrication method of seamless hot-deformed mechanically treated tubes with diameter of 530-550 mm from corrosion-resistant difficult-to-form grades of steel and alloys on tubeforming installation 8-16” with pilger mills. Patent RF No. 2387501. Applied: 24.12.2007. Published: 27.04.2010. Bulletin No. 12.
13. Komarov А. I., Osadchy V. Ya., Nikitin К. N. Improvement of the technology of bimetallic seamless tube production for pipelines of nuclear energy plants. Chernye Metally. 2017. No. 9. pp. 68–72.
14. Komarov А. I., Osadchy V. Ya., Nikitin К. N. et. al. Development and mastering of the innovative import-substituting technology for production seamless bimetallic tubes for nuclear energy. Stal. 2017. No. 7. pp. 44–50.
15. Christopher D. Bimetalic Tubes. Mechanic Engineering. 1961. Vol. 83. No. 6. pp. 68–71.
16. Jaromir V. Das Plattierten von Rohre mit Metallen und Platen. Neue Hütte. 1964. No. 5. S. 47–52.
17. Chepurko М. I., Ostrenko V. Ya., Gluskin L. Ya. et. al. Bimetallic materials. Leningrad: Sudostroenie, 1984. 272 p.
18. Shevchenko А. А., Reznikov Е.А., Kasyan V. Kh. et. al. State analysis and prospects of bimetallic tube application. Kiev: UKRNITI. 1970. 64 p.
19. Chepurko М. I., Karpenko I. P. et. al. Technological bases of bimetallic tubes production. Chelyabinsk: Metall, 1993. 384 p
20. Technical Standart GOST 5950–2000. Bars and strips made from tool alloyed steel. Intr. 02.01.2002.
21. Technical Standart GOST 978–88. Steel castings. General technical conditions. Intr. 01.01.1990.
22. Technical specification No. 14-158-108–99. Seamless hot-rolled tubes made of 30L + Kh12 steel from experimental batch.
Language of full-text русский
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