[1]康永林, 田鹏,朱国明.热宽带钢无头轧制技术进展及趋势 [J].钢铁,2019,54(3):1-8.
Kang Y L, Tian P, Zhu G M. Progress and trend on hot wide strip endless rolling technology [J]. Iron and Steel, 2019, 54(3): 1-8.
[2]汪水泽, 高军恒,吴桂林,等. 薄板坯连铸连轧技术发展现状及展望 [J].工程科学学报,2022,44(4):534-545.
Wang S Z, Gao J H, Wu G L,et al. Thin slab casting and direct rolling technology: Current status and prospects [J]. Chinese Journal of Engineering, 2022, 44(4): 534-545.
[3]何安瑞, 荆丰伟,刘超,等.薄板坯连铸连轧过程控制技术的发展、应用及展望 [J].轧钢,2020,37(3):1-7.
He A R, Jing F W, Liu C,et al. Development,application and prospect of process control technologies of thin slab continuous casting and rolling [J]. China Rolling, 2020, 37(3): 1-7.
[4]Wada T, Ueda M, Oshimi M. Impact pressure of water in hydraulic descaling during hot strip mill rolling [J]. Tetsu-to-Hagane, 1991, 7(9): 1450-1457.
[5]包万遥, 李金波, 高秀华, 等. Cr含量和加热温度对高铁弹条用60Si2Mn弹簧钢脱碳层的影响 [J]. 金属热处理, 2021, 46(6): 41-44.
Bao W Y, Li J B, Gao X H,et al. Effect of Cr content and heating temperature on decarburized layer of 60Si2Mn spring steel for high-speed rail spring [J]. Heat Treatment of Metals, 2021, 46(6): 41-44.
[6]Oike Y, Sato J, Minaml K,et al. Influence of rolling conditions and chemical compositions of rolled material on strip surface flaw caused by surface deterioration of hot work rolls [J]. ISIJ International, 1992, 32(11): 1211-1215.
[7]李志峰, 何永全,曹光明,等.热轧钢材氧化铁皮的高温形变机理研究 [J].材料导报,2018,32(2):259-262.
Li Z F,He Y Q, Cao G M,et al. Mechanism study of high-temperature deformation of oxide scale on hot-rolled steel [J]. Materials Reports, 2018, 32(2): 259-262.
[8]孙彬, 曹光明,刘振宇.热轧带钢粉状氧化铁皮的形成机制及柔性化控制 [J].钢铁研究学报,2013,25(10):53-57.
Sun B, Cao G M, Liu Z Y. Formation mechanism of powered scale on hot rolled strip and flexible control method [J]. Journal of Iron and Steel Research, 2013, 25(10):53-57.
[9]焦隽. SN400B钢板表面氧化铁粉缺陷原因分析及对策 [J].宝钢技术,2005,(6):69-71.
Jiao J. Cause analysis and solution to defect of iron oxide powder on surface of SN400B steel [J]. Bao Steel, 2005,(6):69-71.
[10]章庆, 周孟,金亚军,等.40Cr钢表面麻点缺陷分析及预防 [J].金属热处理,2017,42(5):197-200.
Zhang Q, Zhou M, Jin Y J,et al. Analysis and prevention of pitting defect in 40Cr steel [J]. Heat Treatment of Metals, 2017, 42(5): 197-200. [11]张槐祥, 刘纲,张芳,等.加热炉降低氧化烧损的实验研究 [J].工业加热,2013,42(4):32-35.
Zhang H X, Liu G,Zhang F,et al. Experiment research on reducing the oxidation burning loss of heating furnace [J]. Industrial Heating, 2013, 42(4):32-35. [12]杨丽琴, 丁美良.加热炉氧化烧损研究及改进措施 [J].金属热处理,2016,41(9):168-170.
Yang L Q, Ding M L. Research on oxidizing burning loss of heating furnace and improvement measures [J]. Heat Treatment of Metals, 2016, 41(9):168-170. [13]赵小龙, 王雍期,唐兴昌,等.钢坯在加热过程中的氧化机理及其研究综述 [J].轧钢,2019,36(6):66-68.
Zhao X L, Wang Y Q, Tang X C,et al. Review on the oxidation mechanism and its research of steel billet in heating process [J]. China Rolling, 2019, 36(6): 66-68. [14]魏亚彬, 屈明友,郭艳花.高压水除鳞技术在邯钢CSP生产线上的应用 [J].轧钢,2008,25(1):59-61.
Wei Y B, Qu M Y, Guo Y H. Application of the power descaling system on CSP production line of Handan iron and steel [J]. China Rolling, 2008,25(1):59-61. [15]董欣欣, 唐勤.SPHC热轧带钢氧化铁皮成因和控制措施 [J].轧钢,2011,28(5):56-58.
Dong X X, Tang Q. Scale formation cause of hot rolled SPHC strip and its control measures [J]. China Rolling, 2011,28(5):56-58.
|