A Study on the Rust Removal and Retard on the Surface of the Wear Water Screw-Thread Steel Using Flame Hot Melting

Gui Ju Xing; Hai Jiang Xu; Xue Ke Li; Ling Chang; Xuan Nan Wu

doi:10.4028/www.scientific.net/MSF.750.172

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A Study on the Rust Removal and Retard on the Surface of the Wear Water Screw-Thread Steel Using Flame Hot Melting
p.172

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HomeMaterials Science ForumMaterials Science Forum Vol. 750A Study on the Rust Removal and Retard on the...

A Study on the Rust Removal and Retard on the Surface of the Wear Water Screw-Thread Steel Using Flame Hot Melting

Abstract:

Screw-thread steel, which is produced using the quenching process through wear water controlled rolling system, would prone to generate red rust on its surface. For this reason a combustion apparatus with a smoke backflow area containing partly unburnt combustible fuel is designed to study the rusted 20MnSi wear water screw-thread steel under high temperature flame hot melting. With SEM/EDS and XRD analysis we could affirm that the main composition of the red rust is Fe₂O₃ It assumes loose, porous branches and leaves, therefore makes the absorption of water and gas easier and intensified the sprawling of corrosion. While the steel surface after hot melting treatment form a tight passivation layer made of Fe₃O₄ and FeO, which would isolate outer circumstance thereby protects the metal body. In the article we analyzed two main reasons that cause the red rust and point out contents that requires further studies. Compared with using chemical addition agent, this high temperature flame hot melting reaction technique is beneficial to the environment while of lower cost.

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Periodical:

Materials Science Forum (Volume 750)

Pages:

172-175

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.750.172

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Online since:

March 2013

Authors:

Gui Ju Xing, Hai Jiang Xu, Xue Ke Li, Ling Chang, Xuan Nan Wu

Keywords:

Hot Melting, Passivation Film, Red Rust, Wear Water Screw-Thread Steel

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References

[1] A. Ray, D. Mukerjee, S. Sen, A. Bhattacharya, S. Dhua, M. Prasad, N. Banerjee, A. Popli, A.Sahu: Journal of Materials Engineering and Performance,Vol.6(1997),P.335.

Google Scholar

[2] Cheng Zhisong,YU Wei,Liu Tao,Xu Yandong,Zhan Zhiming: Metal World, 5(2010),P.81.

Google Scholar

[3] Du Yi,Zhao Jianping,Li Wei: Steel Rolling,Vol.4(1998),P.13.

Google Scholar

[4] Yoshinori Isomoto, Takahiro Yamabe, Toki Yoshida and Toshinori Tsumura: Zairyo-to- Kankyo, Vol.55(2006), P.25.

Google Scholar

[5] Ch. Alk. Apostolopoulos and V.P. Pasialis: Journal of Materials Engineering and Performance, Vol.19(2010),P.385.

Google Scholar

[6] Kunitsugu Aramaki: Zairyo-to-Kankyo,Vol.56(2007),P.243.

Google Scholar

[7] Tiequn XU, Hongwei LIU, Chuanwei YAN, Chunrong ZHANG, Yufen LI:Materials protection, Vol.41(2008),P.233.

Google Scholar

[8] XING Guiju,LI Wenzhong,YANG Diguang,GAO Hongbin:The Surface Rust Removal and Prevention Methodology of Wire Rod Steel and Rectangular Burner, China Patent 201010236852.2. (2010).

Google Scholar