Abstract: The replacement of cold rolled strip by hot rolled strip which is ultrathin strip at the thickness of less than 1.5 mm will have enormous economic benefit. The research on production technology of ultrathin strip is very essential to the conventional hot strip mill production technology. The present situation of research on the production of ultrathin strip steel was reviewed and a series of ultrathin strip steel production technologies are summarized. These technologies including profile and flatness control; inhibit strip running deviation control; temperature control of whole production line; lubrication technology for rolling process; looper control; equipment precision maintenance; ferritic hot rolling technology, etc.
马涛, 崔席勇, 张伟, 黎炜, 王强, 张亮. 常规热连轧超薄带钢生产技术研究[J]. 《材料导报》期刊社, 2017, 31(19): 80-83.
MA Tao, CUI Xiyong, ZHANG Wei, LI Wei, WANG Qiang, ZHANG Liang. Study on Manafacturing Technique of Ultrathin Strip by Continuous Hot Rolling. Materials Reports, 2017, 31(19): 80-83.
1 Wang D W. The current situation and prospect of producing ultrathin hot rolled strip[J]. Steel Rolling,2000,17(5):29(in Chinese). 王定武.特薄规格热轧带钢生产现状和前景[J].轧钢,2000,17(5):29. 2 Huang X J. Thetechnique of hot-rolling ultrathin stripe[J]. Sichuan Metallurgy,2004,26(2):21(in Chinese). 黄徐晶.超薄热轧带钢生产技术[J].四川冶金,2004,26(2):21. 3 Kang Y L. The technology and application progress of ultra-thin hot rolled strip produced by thin slab casting and rolling[J]. Steel Ro-lling, 2015,32(1):7(in Chinese). 康永林.薄板坯连铸连轧超薄规格板带技术及其应用进展[J].轧钢,2015,32(1):7. 4 王利民.热轧超薄带钢ESP无头轧制技术发展和应用[J].冶金设备,2014,(S1):60. 5 Tang D, Yang X Z, Miao R T, et al. Analysis of some problems of the hot rolled ultra-thin strip production[J]. Steel Rolling,2001,18(5):34(in Chinese). 唐荻,杨晓臻,苗润涛,等.热轧超薄带生产的若干问题分析[J].轧钢,2001,18(5):34. 6 Li J H, Tian Y Q. Steady rolling and flatness control technology of ultra-thin hot strip[J].Metal World,2014(4):56(in Chinese). 栗建辉,田亚强.超薄规格热轧板卷稳定轧制及板形控制技术[J].金属世界,2014(4):56. 7 陆庆.薄规格带钢终轧温度分析和改进[C]∥2005中国钢铁年会.北京,2005:311. 8 Nie Y Z, Xin X B, Li X J, et al. Influence factors and control me-thods for hot rolled thin gauge strip[J]. Metal World,2013(6):12(in Chinese). 聂玉珠,信晓兵,李秀景,等.薄规格热轧带钢板形影响因素及控制方法[J].金属世界,2013(6):12. 9 连家创,戚向东.板带轧制理论与板形控制理论[M].北京:机械工业出版社,2013. 10 Li Y H, Guo D F, Zhang S S, et al. Optimization and application of CVC work roll contour on CSP line in Maanshan Steel[J]. China Metallurgy,2010,20(9):40(in Chinese). 李耀辉,郭德福,张树山,等.马钢CSP工作辊CVC辊形优化与应用研究[J].中国冶金.2010,20(9):40. 11 Cui X Y,Zhang L,Tong J L,et al. Application of fuzzy control algorithm in the closed-loop feedback control system of cold-rolled strip flatness[J]. Metallurgical Industry Automation,2014,38(3):19(in Chinese). 崔席勇,张亮,童建林,等.模糊控制算法在冷轧板形反馈控制中的应用[J].冶金自动化,2014,38(3):19. 12 Xin Z M, Xie J S. Research on rolling technology of hot rolled thin strip in Zhujiang Steel[J]. Henan Metallurgy,2007,15(S1):33(in Chinese). 辛志敏,谢劲松.珠钢薄规格热轧带钢轧制技术研究[J].河南冶金,2007,15(S1):33. 13 Mao X P, Li K X, Xie J S, et al. Production of thin gauge hot rolled strips at Zhujiang Steel[J]. Iron Steel,2007,42(11):53. 毛新平,李轲新,谢劲松,等.珠钢薄规格热轧钢板生产技术[J].钢铁,2007,42(11):53. 14 Zuo J, Kang B. Rolling technology of ultrathin hot rolled strip[J]. Sichuan Metallurgy,2004,26(1):31(in Chinese). 左军,康斌.超薄热轧带钢生产实践[J].四川冶金,2004,26(1):31. 15 Wang D H, Liu D H, Wang X Q. Development practice of broad hot strip ultra-thin specification[J]. Shandong Metallurgy,2009,31(5):60(in Chinese). 王德厚,刘德红,王学芹.热轧中宽带超薄规格开发实践[J].山东冶金,2009,31(5):60. 16 Li Y W,Liu C.The present situation of the hot rolled thin strip production and the discussion of it in Ben Steel[J]. Bengang Technology,2003(3):9(in Chinese). 李毅伟,刘驰.热轧薄规格带钢生产现状及本钢连轧厂生产热轧薄规格带钢的探讨[J].本钢技术,2003(3):9. 17 Shen X L, Mao X P.Production technology of ultra-thin gauge hot rolled strips[J]. China Metallurgy,2011,21(7):23(in Chinese). 沈训良,毛新平.超薄规格热轧带钢生产技术[J].中国冶金,2011,21(7):23. 18 Shao J,He A R,Yang Q,et al. Work roll wear prediction model ta-king in account lubrication in hot rolling[J].Chinese J Mechan Eng,2009,20(3):361(in Chinese). 邵健,何安瑞,杨荃,等.兼顾热轧工艺润滑的工作辊磨损预报模型[J].中国机械工程,2009,20(3):361. 19 Wang C H, Mao W M, Wang L Q, et al. Process improvement of the thin size strip steel in Angang 1780 mm hot rolling[J]. Metal Mater Metall Eng,2012,40(4):19(in Chinese). 王超海,毛卫民,王立群,等.安钢1780 mm热连轧薄规格板卷轧制工艺改进[J].金属材料与冶金工程,2012,40(4):19. 20 Chen J H, Peng J M, Tang B G. Analysis and control method on hot rolling stability of thin gauge strip[J]. Steel Rolling,2014,31(3):57(in Chinese). 陈建华,彭军明,唐彬桂.薄规格带钢轧制稳定性分析与控制方法[J].轧钢,2014,31(3):57. 21 Feng Y L, Chen H H, Chen L B. Quality controlling techniques in ultra-thin hot strip production line of Tangshan Iron and Steel Co. Ltd[J]. Iron Steel Vanadium Titanium,2005,26(2):16(in Chinese). 冯运莉,陈华辉,陈礼斌.唐钢超薄热轧带钢生产线的质量控制技术[J].钢铁钒钛,2005,26(2):16. 22 Mao X P. Ferritic rolling of TSCR[J]. Iron Steel,2004,39(5):71(in Chinese). 毛新平.薄板坯连铸连轧铁素体轧制工艺[J].钢铁,2004,39(5):71. 23 康永林,朱国明,宇航.一种热轧带钢中间坯的快速连接模具及方法:CN104815907A [P].2015-08-05. 24 康永林,朱国明,宇航.一种热轧带钢中间坯的快速连接模具:CN204620859U [P].2015-09-09. 25 Tian N Y, Tang H H, Song L D. Latest development in thin slab casting and rolling technology[J]. Iron Steel,2001,36(5):69(in Chinese). 田乃媛,唐洪华,宋立东.薄板坯连铸连轧技术的最新进展[J].钢铁,2001,36(5):69. 26 Chen J H. An overview on the conventional hot rolling technologies[J]. Southern Metals,2002(2):7(in Chinese). 陈景浒.传统热连轧生产技术的发展[J].南方金属,2002(2):7.
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