Review on studies of reducing Cu-induced surface hot shortness in steel 被引量：2

Review on studies of reducing Cu-induced surface hot shortness in steel

下载PDF

导出

摘要 There is an increasing trend for producing copper-containing steels, with copper being either a residual element from scraps or an intentional addition, i. e. , in weathering steel. The issue of surface hot shortness occurs during the hot working of steels containing copper, and a significant amount of work has been performed on this topic. This paper provides a review of related studies on this phenomenon. The formation mechanism, as analyzed, is the liquid metal embrittlement caused by the liquid copper penetration into austenite grain boundaries at the metal surface, where the copper originates from the selective oxidation of the steel at high temperature. On the basis of the mechanism, more importance is placed on analyzing the effect on the phenomenon by varying the controlling factors, including the heating process, alloying additions, and deformation conditions. Possible solutions to the problem are finalized, and some further work must be performed in the future. There is an increasing trend for producing copper-containing steels, with copper being either a residual element from scraps or an intentional addition, i. e. , in weathering steel. The issue of surface hot shortness occurs during the hot working of steels containing copper, and a significant amount of work has been performed on this topic. This paper provides a review of related studies on this phenomenon. The formation mechanism, as analyzed, is the liquid metal embrittlement caused by the liquid copper penetration into austenite grain boundaries at the metal surface, where the copper originates from the selective oxidation of the steel at high temperature. On the basis of the mechanism, more importance is placed on analyzing the effect on the phenomenon by varying the controlling factors, including the heating process, alloying additions, and deformation conditions. Possible solutions to the problem are finalized, and some further work must be performed in the future.

作者 WANG Wei

机构地区 Research Institute

出处《Baosteel Technical Research》 CAS 2015年第2期3-13,共11页 宝钢技术研究（英文版）

关键词 hot shortness copper liquid embrittlement grain boundary penetration DUCTILITY hot shortness copper liquid embrittlement grain boundary penetration ductility

分类号 TG142 [金属学及工艺—金属材料]

引文网络
相关文献

参考文献54

1Okada H and Sekino S. Copper-containing structural steels//Copper in Iron and Steel[ M] ,Edited by Iain Le May and L. McDonald Schetky,Wiley,New York,NY, USA,1982:83-133.
2Yamasue E and Matsubae K. Total material requirement of scrap steel from end-of-life vehicle [ J ]. Tetsu to Hagane,2014,100(6) :778-787.
3Igarashi Y and Kakiuchi E. Estimation of steel consumption and obsolete scrap generation in Japan and Asian countries in the future[ J]. ISIJ,2008,48(5) :696-704.
4Hatayama H,Daigob I and Tahara K. Tracking effective measures for closed-loop recycling of automobile steel in China[ J]. Res Cons Rec,2014,87 :65-71.
5Utaise K,Yotsuya S and Tanahashi A. Scrap situation and its effective application in Japanese EAF-steel industry[ J]. ISIJ, 1996,36(Suppl) :S18-S21.
6Yalamanchili B,Power P M and Nelson J B. Effect of residual elements on low carbon rod quality and implications to the end user [ J ]. Wire J Int, 1999, 32(5) : 100-106.
7Habraken L and Lecomte-Beckers J. Hot shortness andscaling of copper-containing steels// Copper in Iron and Steel[M] .Edited by Iain Le May and L. McDonald Schetky, Wiley, New York, NY, USA, 1982:45-81.
8Darsouni A, Bouzabata B and Montheillet F. Hot ductility of a microalloyed steel in the intermediate temperature[ J ]. J. DePhysique IV, 1995 ,5 ( C7) : 347-353.
9Nachtrab W T and Chou Y T. High temperature ductility loss in carbon-manganese and niobium-treated steels [J]. Metal Trans A,1986,17 (11): 1995-2006.
10Silverman D C and Carrico J E. Copper in cast steel and iron [ R ]. Copper Development Association, Publication No. 29,London, 1937:26.