纯铁做中间材制备不锈钢/碳钢热轧复合板

doi:10.13228/j.boyuan.issn0449-749x.20170191

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摘要针对真空热轧制备不锈钢/碳钢复合板过程中碳钢中的碳元素和不锈钢中的铬元素易形成碳化物影响复合强度的问题，进行了在碳钢和不锈钢之间加入纯铁层的不锈钢/碳钢真空热轧试验研究。测量了不同压下量下复合板的结合强度，并对轧后的复合板进行了金相组织观察和扫描电镜元素分布的分析。试验结果表明，加入纯铁中间层时，纯铁和碳钢容易达到良好的冶金结合，同时纯铁中间层的加入可以阻碍碳钢中的碳元素向复合界面处扩散，减少了碳铬化合物形成，有利于界面结合强度的提高。

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	谢红飙
	王德蔚
	余超
	祁梓宸
	肖宏

关键词 ：不锈钢复合板, 热轧复合, 纯铁中间层, 结合强度

Abstract：When stainless steel and carbon steel composites were produced by hot rolling under vacuum，C in carbon steel and Cr in stainless steel are easy to form carbides that reduce the bonding strength during hot rolling. To attempt to solve this problem，pure iron as intermediate material were used to bond stainless steel and carbon steel by hot rolling. The bonding strengths under different reductions were measured，and the microstructure and the distribution of elements of the composites were examined. The results show that when pure iron is used，the pure iron and the carbon steel have a metallurgical bonding. The diffusion of C from the carbon steel to bonding surface can be hindered，it decreases the formation of carbon chromium compounds，and it is beneficial to improve the bonding strength.

收稿日期: 2017-04-21 出版日期: 2017-12-21

引用本文:

谢红飙，王德蔚，余超，祁梓宸，肖宏. 纯铁做中间材制备不锈钢/碳钢热轧复合板[J]. , 2017, 52(12): 48-53. XIE Hong-biao，WANG De-wei，YU Chao，QI Zi-chen，XIAO Hong. Stainless steel/carbon steel composite plate prepared by hot-roll bonding with pure iron as intermediate material. Iron and Steel, 2017, 52(12): 48-53.

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[1]	廖婷婷. 金属层状复合材料生产工艺简介及展望[J]. 科技创新与应用, 2015, 4(18):129-129. (LIAO Ting-ting. Brief introduction and Prospect of production technology of metal laminated composites[J]. Technology Innovation and Application, 2015,4(18):129-129.)
[1]	廖婷婷. 金属层状复合材料生产工艺简介及展望[J]. 科技创新与应用, 2015, 4(18):129-129. (LIAO Ting-ting. Brief introduction and Prospect of production technology of metal laminated composites[J]. Technology Innovation and Application, 2015,4(18):129-129.)
[2]	骆宗安，陈晓峰，谢光明，等. 真空轧制825合金/X65钢复合板的组织性能[J].钢铁, 2017, 52(3):64-69. (LUO Zong-an, CHEN Xiao-feng, XIE Guang-ming, et al. Microstructure and mechanical property of vacuum hot-rolled 825 alloy/X65 pipeline steel clad plate[J]. 2017, 52(3):64-69.)
[2]	骆宗安，陈晓峰，谢光明，等. 真空轧制825合金/X65钢复合板的组织性能[J].钢铁, 2017, 52(3):64-69. (LUO Zong-an, CHEN Xiao-feng, XIE Guang-ming, et al. Microstructure and mechanical property of vacuum hot-rolled 825 alloy/X65 pipeline steel clad plate[J]. 2017, 52(3):64-69.)
[3]	L Li, FX Yin, K Nagai. Progress of Laminated Materials and Clad Steels Production[J]. Materials Science Forum, 2011, 675-677:439-447.
[3]	L Li, FX Yin, K Nagai. Progress of Laminated Materials and Clad Steels Production[J]. Materials Science Forum, 2011, 675-677:439-447.
[4]	Shaokun Zhang, Hong Xiao, Hongbiao Xie. The preparation and property research of the stainless steel/iron scrap clad plate[J]. Journal of Materials Processing Technology. 2014,214:1205-1210.
[4]	Shaokun Zhang, Hong Xiao, Hongbiao Xie. The preparation and property research of the stainless steel/iron scrap clad plate[J]. Journal of Materials Processing Technology. 2014,214:1205-1210.
[5]	Lesuer D R, Syn C K, Sherby O D, et al. Mechanical behaviour of laminated metal composites[J]. International Materials Reviews, 1996, 41(5):169-197.
[5]	Lesuer D R, Syn C K, Sherby O D, et al. Mechanical behaviour of laminated metal composites[J]. International Materials Reviews, 1996, 41(5):169-197.
[6]	井玉安，王晨宇. 不锈钢复合板生产技术综述[J]. 辽宁科技大学学报, 2007, 30(6):590-594. (JING Yu-an，WANG Chen-yu. Production technology of stainless steel clad plate[J]. Journal of University of Science and Technology Liaoning, 2007, 30(6):590-594.)
[6]	井玉安，王晨宇. 不锈钢复合板生产技术综述[J]. 辽宁科技大学学报, 2007, 30(6):590-594. (JING Yu-an，WANG Chen-yu. Production technology of stainless steel clad plate[J]. Journal of University of Science and Technology Liaoning, 2007, 30(6):590-594.)
[7]	李永松，沈怡琳. 不锈钢复合板制作新工艺及市场前景的研究[J]. 装备制造技术, 2001(4):34-36. (LI Yong-song, SHEN Yi-lin. New Process for Fabricating Stainless Steel Clad Plate and marketing Prospect[J].Equipment Manufacturing Technology. 2001(4):34-36.)
[7]	李永松，沈怡琳. 不锈钢复合板制作新工艺及市场前景的研究[J]. 装备制造技术, 2001(4):34-36. (LI Yong-song, SHEN Yi-lin. New Process for Fabricating Stainless Steel Clad Plate and marketing Prospect[J].Equipment Manufacturing Technology. 2001(4):34-36.)
[8]	李龙，张心金，刘会云，等. 不锈钢复合板的生产技术及工业应用[J]. 轧钢, 2013, 30(3): 43-47.(LI Long, ZHANG Xin-jin, LIOU Hui-yun, et al. Production technology and industrial application of stainless steel clad plate[J]. Steel Rolling, 2013, 30(3): 43-47.)
[8]	李龙，张心金，刘会云，等. 不锈钢复合板的生产技术及工业应用[J]. 轧钢, 2013, 30(3): 43-47.(LI Long, ZHANG Xin-jin, LIOU Hui-yun, et al. Production technology and industrial application of stainless steel clad plate[J]. Steel Rolling, 2013, 30(3): 43-47.)
[9]	黄庆学, 杨小容, 周存龙,等. 制坯工艺对热轧不锈钢/碳钢复合板复合效果的影响[J]. 材料热处理学报, 2014, 35(s1): 62-66.(HUANG Qing-xue, YANG Xiao-rong, ZHOU Cun-long, et al. Influence of performing process on bond effects of hot-rolled stainless steel and carbon steel clad billets[J]. Transactions of materials and heat treatment, 2014, 35(s1): 62-66.)
[9]	黄庆学, 杨小容, 周存龙,等. 制坯工艺对热轧不锈钢/碳钢复合板复合效果的影响[J]. 材料热处理学报, 2014, 35(s1): 62-66.(HUANG Qing-xue, YANG Xiao-rong, ZHOU Cun-long, et al. Influence of performing process on bond effects of hot-rolled stainless steel and carbon steel clad billets[J]. Transactions of materials and heat treatment, 2014, 35(s1): 62-66.)
[10]	祖国胤，于九明，温景林. 中间夹层对不锈钢复合板界面结合性能的影响[J]. 东北大学学报, 2003, 24(11):1153-1156.(ZU Guo-yin, YU Jiu-ming, WEN Jing-lin. Effect of interlayer on interfacial bonding properties of stainless clad sheets[J]. Journal of Northeastern University, 2003, 24(11):1153-1156.)
[10]	祖国胤，于九明，温景林. 中间夹层对不锈钢复合板界面结合性能的影响[J]. 东北大学学报, 2003, 24(11):1153-1156.(ZU Guo-yin, YU Jiu-ming, WEN Jing-lin. Effect of interlayer on interfacial bonding properties of stainless clad sheets[J]. Journal of Northeastern University, 2003, 24(11):1153-1156.)
[11]	张心金，李　龙，刘会云等. 中间夹层在金属复合板制造过程中的应用[J].轧钢，2013,30(6):45-49.(ZHANG XIN-JIN, LI Long, LIU Hui-yun, et al. Application of insert layer in manufacturing clad metal plates[J]. Steel Rolling, 2013, 30(6):45-49.)
[11]	张心金，李　龙，刘会云等. 中间夹层在金属复合板制造过程中的应用[J].轧钢，2013,30(6):45-49.(ZHANG XIN-JIN, LI Long, LIU Hui-yun, et al. Application of insert layer in manufacturing clad metal plates[J]. Steel Rolling, 2013, 30(6):45-49.)
[12]	C. Yu, H. Xiao, H. Yu, et al. Mechanical properties and interfacial structure of hot-roll bonding TA2/Q235B plate using DT4 interlayer[J]. Materials Science and Engineering: A, 695(2017):120-125.
[12]	C. Yu, H. Xiao, H. Yu, et al. Mechanical properties and interfacial structure of hot-roll bonding TA2/Q235B plate using DT4 interlayer[J]. Materials Science and Engineering: A, 695(2017):120-125.
[13]	JING Y，QIN Y，ZANG X M，et al. The bonding properties and interfacial morphologies of clad plate prepared by multiple passes hot rolling in a protective atmosphere[J]. Journal of Materials Processing Technology, 2014(214):1686-1695.
[13]	JING Y，QIN Y，ZANG X M，et al. The bonding properties and interfacial morphologies of clad plate prepared by multiple passes hot rolling in a protective atmosphere[J]. Journal of Materials Processing Technology, 2014(214):1686-1695.
[14]	代响林, 刘宝玺, 马久乐,等. 真空热轧法制备不锈钢复合板组织和力学性能[J]. 钢铁, 2017, 52(2): 65-70.(DAI Xiang-lin，LIOU Bao-xi，MA Jiou-le，et al. Microstructure and mechanical properties of stainless steel clad plate prepared by vacuum hot rolling[J]. Iron and Steel, 2017, 52(2):65-70.)
[14]	代响林, 刘宝玺, 马久乐,等. 真空热轧法制备不锈钢复合板组织和力学性能[J]. 钢铁, 2017, 52(2): 65-70.(DAI Xiang-lin，LIOU Bao-xi，MA Jiou-le，et al. Microstructure and mechanical properties of stainless steel clad plate prepared by vacuum hot rolling[J]. Iron and Steel, 2017, 52(2):65-70.)
[15]	李霄. 1Cr18Ni9焊接敏化区的耗散结构[J]. 石油工业技术监督, 2005, 21(6):7-8.(LI Xiao. The dissipative structure of 1Cr18Ni9 welding sensitization zone[J]. Technical supervision of petroleum industry, 2005, 21(6):7-8.)
[15]	李霄. 1Cr18Ni9焊接敏化区的耗散结构[J]. 石油工业技术监督, 2005, 21(6):7-8.(LI Xiao. The dissipative structure of 1Cr18Ni9 welding sensitization zone[J]. Technical supervision of petroleum industry, 2005, 21(6):7-8.)