Effect of Coiling Temperature on Oxide Scale of Hot-Rolled Strip

Xiang Long Yu; Zheng Yi Jiang; Xiao Dong Wang; Dong Bin Wei; Quan Yang

doi:10.4028/www.scientific.net/AMR.415-417.853

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 415-417Effect of Coiling Temperature on Oxide Scale of...

Effect of Coiling Temperature on Oxide Scale of Hot-Rolled Strip

Abstract:

The influence of the coiling temperature, ranging from 550 to 570°C, on the morphology and the phase composition of the oxide scale formed on the microalloyed low carbon steel for automobiles after hot strip rolling was investigated. Physicochemical characteristics of the oxide scales were examined and their formation mechanism was discussed. Thickness of the oxide scale is in the range of 8-11µm and decreases with a decrease of coiling temperature. The microstructure and phase composition, XRD analysis shows a large amount of magnetite (Fe₃O₄) and some sparse hematite (Fe₂O₃) exist on the surface of hot rolled strip when the coiling temperature reduces from 570 to 550°C. The coiling temperature substantially affects the internal microstructure and magnetite phase.

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Periodical:

Advanced Materials Research (Volumes 415-417)

Pages:

853-858

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.415-417.853

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Online since:

December 2011

Authors:

Xiang Long Yu, Zheng Yi Jiang, Xiao Dong Wang, Dong Bin Wei, Quan Yang

Keywords:

Coiling Temperature, Hot-Rolled Strip, Oxide Scale, Phase Composition

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References

[1] W.L. Roberts: Hot Rolling of Steel (Marcel Dekker Inc, USA 1983)

Google Scholar

[2] R.Y. Chen and W.Y.D. Yuen: Oxid. Met., Vol. 59 (2003), p.433

Google Scholar

[3] Z.Y. Jiang, A.K. Tieu, W.H. Sun et al: Mat. Sci. Eng. A-Struct., Vol. 435-436 (2006), p.434

Google Scholar

[4] M. Krzyzanowski, J. H. Beynon and D. C. J. Farrugia: Oxide Scale Behavior in High Temperature Metal Processing (Wiley-VCH, Darmstadt, Germany 2010)

DOI: 10.1002/9783527630318

Google Scholar

[5] R.Y. Chen and W.Y.D. Yuen: Oxid. Met., Vol. 53 (2000), p.539

Google Scholar

[6] J. Paidassi: Acta Metall., Vol. 6 (1958), p.184

Google Scholar

[7] D.B. Wei, J.X. Huang, A.W. Zhang, Z.Y. Jiang et al: Int. J. Surf. Sci. Eng., Vol. 3 (2009), p.459

Google Scholar

[8] W.H. Sun, A.K. Tieu, Z.Y. Jiang et al: J. Mater. Process. Technol., Vol. 155-156 (2004), p.1300

Google Scholar

[9] B. Gleeson, S.M. Hadavi and D.J. Young: Mater. High Temp., Vol. 17 (2000), p.11

Google Scholar

[10] H.A. Wriedt: in Binary Alloy Phase Diagrams, 2nd edn., edited by T.B. Massalski, H. Okamoto, P.R. Subramanian and L. Kacprzak, volume 2, ASM Intern., Materials Park (1990), p.1739

Google Scholar

[11] R.Y. Chen and W.Y.D. Yuen: Oxid. Met., Vol. 56 (2001), p.89

Google Scholar

[12] V.V. Basabe, J.A. Szpunar: ISIJ Int., Vol. 44 (2004), p.1554

Google Scholar

[13] N.N. Greenwood and A.T. Howe, J. Chem. Sot. Dalton Trans, Vol. 1 (1972), p.116

Google Scholar