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Metal Science and Heat Treatment

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11-05-2016

Effect of Structure Factor on High-Temperature Ductility of Pipe Steels

Authors: N. G. Kolbasnikov, M. A. Matveev, P. A. Mishnev

Published in: Metal Science and Heat Treatment | Issue 1-2/2016

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Abstract

Effects of various factors such as the grain size, the morphology of nonmetallic inclusions, and joint microalloying with boron and titanium on the high-temperature ductility of pipe steels are studied. Physical modeling of the conditions of cooling of the skin of a continuous-cast preform in the zone of secondary cooling in a Gleeble facility is performed. Technical recommendations are given for raising the hot ductility of steels under industrial conditions.

previous article Prediction of the Properties of Heat-Affected Zone of Welded Joints of Sheets from Aluminum Alloys with Structured Surface

next article Formation of Structure of Lower Carbide-Free Bainite Due to Isothermal Treatment of Steels of Types Kh3G3MFS and KhN3MFS

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D. N. Crowther, “The effects of microalloying elements on cracking during continuous casting,” in: Proc. Int. Symp. 2001 on Vanadium Application Technology, Beijing, China, Vanitec, Westerham, Kent, England, pp. 99 – 131.

Lesley H. Chown, The Influence of Continuous Casting Parameters on Hot Ductility Tensile Behavior of Low Carbon, Niobium and Boron Steels, Author’s Abstract of Candidate’s Thesis, University of Witwatersrand, Johannesburg (2008), 317 p.

K. M. Banks, A. Tulling, C. Klinkenberg, and B. Mintz, “The influence of Ti on the hot ductility of Nb containing steels,” Mater. Sci. Technol., 89, 537 – 545 (2011).CrossRef

A. A. Presnyakov and V. V. Chervyakova, Nature of Ductility Drops in Metallic Alloys [in Russian], Nauka, Alma-Ata, KazSSR (1970), 194 p.

N. G. Kolbasnikov, M. A. Matveev, V. V. Mishin, et al., “About the causes of drops of the hot ductility of steels,” Metally, No. 5, 36 – 43 (2014).

N. G. Kolbasnikov,M. A. Matveev, V. V. Mishin, et al., “A study with the use of physical modeling of the causes of formation of hot cracks in slabs under continuous casting of tube steel,” Élektrometallurgiya, No. 6, 27 – 33 (2014).

N. G. Kolbasnikov, M. A. Matveev, V. V. Mishin, et al., “Physical modeling of hot ductility of microalloyed pipe steel under continuous casting and hot rolling,” Stal’, No. 2, 59 – 65 (2014).

N. G. Kolbasnikov, M. A. Matveev, V. V. Mishin, et al., “Estimation of the probability of failure of metal under hot rolling with the help of methods of physical and mathematical modeling,” Chern. Met., No. 4, 55 – 60 (2014).

I. G. Kolbasnikov and S. Yu. Kondrat’ev, Structure. Entropy. Phase Transformations and Properties of Metals [in Russian], Nauka, St. Petersburg (2006), 363 p.

10.

Sung. K. Kim, Nack J. Kim, and June Sung Kim, “Effect of boron on the hot ductility of Nb-containing steel,” Metall. Mater. Trans. A, 33, 701 – 704 (2002).

Title: Effect of Structure Factor on High-Temperature Ductility of Pipe Steels
Authors: N. G. Kolbasnikov
M. A. Matveev
P. A. Mishnev
Publication date: 11-05-2016
Publisher: Springer US
Published in: Metal Science and Heat Treatment / Issue 1-2/2016
Print ISSN: 0026-0673
Electronic ISSN: 1573-8973
DOI: https://doi.org/10.1007/s11041-016-9964-0

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Formation of Structure and Properties of Carbide-Free Bainite in Steel 30KhGSA

Morphological Characteristics of Chromium Carbides in HP40NbTi Refractory Alloys in Cast Condition and after High-Temperature Holds

Possibility of Prediction of Properties of High-Toughness Materials by Complex Analysis of the Size of Zones of Plastic Strain and Other Parameters of Steel 09G2S

Complex Deformation and Thermochemical Treatment of System-Alloyed Low-Carbon Steel 10Kh3G3MF

Prediction of the Properties of Heat-Affected Zone of Welded Joints of Sheets from Aluminum Alloys with Structured Surface

Decomposition of Austenite Under Conditions of Competition of Martensitic and Bainitic Transformations

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