References
- Li Y, Chen X, Liu K, et al. Reasonable temperature schedules for cold or hot charging of continuously cast steel slabs. Metall Mater Trans A. 2013;44(12):5354–5364.
- He D, Yu X, Chang J, et al. Temperature holding hood for hot charging of continuous casting slab in Tangshan Iron and Steel Company. J Iron Steel Res Int. 2014;21:34–38.
- Zhang B, Xue ZL, Liao Z, et al. Analysis on surface longitudinal cracking of Q345D slab. J Iron Steel Res(Int). 2014;21:108–112.
- Liu Y, Wang X, Sun Y, et al. Research on a new detection method of slab surface crack in mould during continuous casting. Metall Res Technol. 2018;115(1):108.
- Emi T, Fredriksson H. High-speed continuous casting of peritectic carbon steels. Mater Sci Eng A. 2005;413:2–9.
- Brimacombe JK, Sorimachi K. Crack formation in the continuous casting of steel. Metall Trans B. 1977;8(2):489–505.
- Xing L, Zhang Z, Bao Y, et al. Causes of corner cracks in hypoperitectic steel billets. Steel Res Int. 2021;92(7):2100035.
- Kawamoto M, Tsukaguchi Y, Nishida N, et al. Improvement of the initial stage of solidification by using mild cooling mold powder. ISIJ Int. 1997;37(2):134–139.
- Yu X, Wen GH, Tang P, et al. Investigation on viscosity of mould fluxes during continuous casting of aluminium containing TRIP steels. Ironmak Steelmak. 2009;36(8):623–630.
- Mahapatra RB, Brimacombe JK, Samarasekera IV. Mold behavior and its influence on quality in the continuous casting of steel slabs: part II. mold heat transfer, mold flux behavior, formation of oscillation marks, longitudinal off-corner depressions, and subsurface cracks. Metall Mater Trans B. 1991;22(6):875–888.
- Wen P, He MY, Xu SQ. Formation cause and control measure of longitudinal surface cracks of continuous casting slabs. Continuous Casting. 2013;32(2):19–22 + 34.
- Rietow B, Thomas BG. Using nail board experiments to quantify surface velocity in the CC mold. AISTech 2008 Steelmaking Conference Proceedings, Pittsburgh, PA. 2008;1.
- Liu R, Thomas BG, Sengupta J, et al. Measurements of molten steel surface velocity and effect of stopper-rod movement on transient multiphase fluid flow in continuous casting. ISIJ Int. 2014;54(10):2314–2323.
- Zhuang C, Liu J, Li C, et al. Study on high temperature solidification behavior and crack sensitivity of Fe-Mn-C-Al TWIP steel. Sci Rep. 2019;9(1):1–8.
- He YM, Wang Q, Hu B, et al. Application of high-basicity mould fluxes for continuous casting of large steel slabs. Ironmak Steelmak. 2016;43(8):588–593.
- Mcpherson N, Mcintosh SL. Mould powder related defects in some continuously cast steel products. Ironmak Steelmak. 1987;14(6):19–25.
- Zhu ZY, Wang XH, Wang WJ. Longitudinal surface crack and its effect on CC slab of hypo-peritectic steel. Continuous Casting. 2000;19(6):31–36.
- Ogibayashi S, Yamaguchi K, Mukai T, et al. Mold powder technology for continuous casting of low-carbon aluminum-killed steel. Nippon Steel Tech Rep. 1987: 34):1–10.