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Metallurgist

Erschienen in:

05.07.2021

Application of the Gleeble 3800 System in Developing Hot Pipe Extrusion and Pipe End Upsetting Technologies

verfasst von: Ya. I. Kosmatsky, B. V. Barichko, N. V. Fokin, V. D. Nikolenko

Erschienen in: Metallurgist | Ausgabe 3-4/2021

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Abstract

The paper presents the results of numerous studies into hot pipe extrusion and pipe end upsetting processes using the Gleeble 3800 physical simulation system. The Gleeble 3800 system has been widely applied in the development of effective technologies for producing pipes from alloy steels and titanium alloys. The authors describe various possibilities for using the research data produced by the Gleeble 3800 system when designing technology for hot pipe extrusion and developing pipe end upsetting modes.

Vorheriger Artikel Improvement of the Devices for Filling the Crystallizers of Continuous Casting Machines with Liquid Metal

Nächster Artikel Automatic Temperature Control System for Electric Resistance Annealing of Steel Welding Wire

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A specialist from the TMK R&D center (E. A. Gornostaeva) took part in this work.

N. G. Kolbasnikov, Research and Modelling of Structure and Character of Metallic Materials Laboratory [in Russian], Izd-vo SPb GPU, St. Petersburg (2011).

B. V. Barichko, A. V. Vydrin, Ya. I. Kosmatskii, et al., “Force parameters for extruding pipes from centrifugally cast 08Kh18N10T steel billets,” Metallurg, No. 4, 65–66 (2011).

B. V. Barichko, Ya. I. Kosmatskii, S. V. Rushchits, et al., “Properties of a centrifugally cast tubular billet from 08Kh18N10T steel,” Metallurg, No. 4, 59–62 (2013).

Yu. V. Bodrov, A. I. Brizhan, M. N. Lefler, L. G. Marchenko, et al., “High-strength austenitic steel and final strengthening treatment of products produced from it,” Russian Patent No. RU2254394, IPC С 22 C38/38, C21D 8/00; Apl. 06/16/04; publ. 06/20/05. Bul. No. 5.

A. G. Illarionov and A. A. Popov, Technological and Performance Characteristics of Titanium Alloys [in Russian], textbook, Izd-vo Ural’skogo Un-ta, Ekaterinburg (2014).

M. Z. Ermanok, Yu. P. Sobolev, and A. A. Gel’man, Titanium Alloy Extrusion [in Russian], Metallurgiya, Moscow (1979).

Ya. I. Kosmatskii, N. V. Fokin, E. A. Filyaeva, and B. V. Barichko, “Ti-3Al-2.5V alloy: deformation capacity and the technological capability of manufacturing hot-extruded tubes from it,” Titan, No. 2, 18–22 (2016).

A. G. Illarionov, Ya. I. Kosmatskii, E. A. Filyaeva, et al., “Determination of temperature parameters for producing hot-extruded pipes from Ti-3Al-2.5V alloy,” Metallurg, No 9, 83–87 (2016).

V. N. Vydrin and A. P. Smolin, Determination of Deformation Resistance According to the Results of Plastometric Studies and Computer Processing [in Russian], textbook, ChPI, Chelyabinsk (1982).

10.

A. V. Zinchenko, B. V. Barichko, V. D. Nikolenko, T. N. Zharkaya, and V. L. Neroznikov, “Resistance of drill-pipe steels to deformation,” Chern. Metall.: Byul. NTiÉI, 76, No. 8, 826–829 (2020).

Titel: Application of the Gleeble 3800 System in Developing Hot Pipe Extrusion and Pipe End Upsetting Technologies
verfasst von: Ya. I. Kosmatsky
B. V. Barichko
N. V. Fokin
V. D. Nikolenko
Publikationsdatum: 05.07.2021
Verlag: Springer US
Erschienen in: Metallurgist / Ausgabe 3-4/2021
Print ISSN: 0026-0894
Elektronische ISSN: 1573-8892
DOI: https://doi.org/10.1007/s11015-021-01170-5

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