Abstract
Soaking temperature, drafting schedule, finish rolling and coiling temperatures all play important roles in processing of low carbon plate and strip. They control the kinetics of various physical and metallurgical processes, viz. austenitization, recrystallization and precipitation behaviour. The final transformed microstructures depend upon these processes and their interaction with each other. In view of increasing cost of input materials, new processing techniques such as recrystallized controlled rolling and warm rolling have been developed for production of plates and thinner hot bands with very good deep drawability respectively. Besides hybrid computer modelling is used for production of strip products with tailor made properties. Although there have been few reviews on low carbon microalloyed steels in the past the present one deals with new developments.
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References
Barnet M R and Jonas J J 1999Iron and Steel Inst. Jap. Int. 39 856
Bleck W, Meyer L and Kasper R 1990Stahl u. Eisen 110 26
Borato F, Barbosa R, Yue S and Jonas J J 1988Proc. thermec’88 (ed.) I Tamura (Tokyo: Iron and Steel Inst.) p. 383
Bramfitt B L and Marder A R 1973Processing and properties of low carbon steels (NY: AIME) p. 191
Cuddy L J 1985Encyclopedia of materials science and engineering (Oxford: Pergamon)
DeArdo A J 1984Conf. high strength low alloy steels (eds) D P Dunne and T Chandra (Wollongong: University of Wollongong) p. 70
Dunne D P, Feng B and Chandra T 1991Iron and Steel Inst. Jap. Int. 31 1351
Easterling K 1992Physical metallurgy of welding (London: Butterworths) p. 122
Frank F C and Stroh A N 1952Proc. Phys. Soc. B65 811
Ginzburg V 1989Steel rolling technology (NY: Marcel Dekker Inc.) p. 403
Hansen S S, Vander Sande J B and Cohen M 1980Met. Trans. A11 387
Harlet P, Becco F, Cantinieaux P, Bouquegneau D, Messien P and Herman J C 1993Low carbon steel for 90s (eds) R Asfahani and G Tither (Warrendale: Minerals, Metals and Matl. Soc.) p. 389
Hensel A and Lehnert L 1973Neue Hutte 18 654
Hillert M, Nilsson K and Torndahl L E 1971JISI 209 49
Hirsch Y C and Parker B A 1981Adv. in physical metallurgy and applications of steels (London: Metals Soc.) p. 26
Hoile S 2000Mater. Sci. Technol. 16 1079
Houdremont E 1956Handbook of special steels (Berlin: Springer Verlag)
Inagaki H 1983Trans. Iron and Steel Inst. Jap. 13 1059
Jabs S 1995A review on annealing technology (Brussels: Int. Iron and Steel Inst.) p. 65
Jones J D and Rothwell A B 1968Deformation under hot working condition (London: Iron and Steel Inst.) p. 78
Kwon O, Lee K J, Kang K B and Lee J K 1998Asia Steel 205
Lamberigts M and Greday T 1974Metall. Report CRM 38 23
LeBon A and Rofes Vernis J 1976Conf. controlled processing of HSLA steels (York, UK: University of York) paper no. 6
Lenel U R and Honeycombe R W K 1984Metal Sci. 18 503
McTegart W J and Gattins A1976Hot deformation of austenite (ed.) J B Ballance (NY: AIME)
McQueen H J and Jonas J J 1973Manuf. Engg. Trans. 2 83
Meyer L and deBoer H 1977Thyssen Tech. Rep. 9 20
Meyer L, Buhler H E and Heisterkamp F 1971Thyssen Res. 3 8
Militzer M, Poole W J and Sun W 1998Steel Res. 69 279
Ouchi C and Sampei T 1976Hot deformation of austenite (ed.) J B Ballance (NY: AIME)
Panigrahi B K, Mishra K B, Mediratta S R and Ramaswamy V 1980Steel India 3 258
Panigrahi B K 1981 Unpublished result
Panigrahi B K, Ramaswamy V, Bhan S and Suryanarayana C 1984New developments on thermomechanical treatment of steels—38th Annual technical meeting (Bangalore: Indian Institute of Metals)
Perry A C, Thompson S W and Speer J G 2000Iron & Steel Maker 27 47
Pickering F B 1978Physical metallurgy and design of steel (London: Applied Science Publisher) Chap. 4
Priestner R and de Los Rios E 1976Heat treatment ’76 (London: Metals Soc.) p. 129
Robiller G and Meyer L 1980RISO conf. metallurgy and materials sci. (ed) N Hansen (Roskilde, Denmark: RISO National Laboratories) p. 311
Siciliano F and Jonas J J 2000Met. Matl. Trans. A31 511
Siemens A G 2000AISE Steel Tech. 77 91
Smith R P 1953Acta Met. 1 578
Speich G R, Szirmac A and Richards M J 1969Trans. Met. Soc. 245 1063
Speich G R, Davenport V A and Miller R L 1981Met. Trans. A12 1419
Tamura I, Sekine H, Tanaka T and Ouchi C 1988Thermomechanical processing of high strength low alloy steel (London: Butterworth) p. 121
Tanaka T 1981Int. Met. Rev. 26 185
Tanaka T 1984Conf. high strength low alloy steels (eds) D P Dunne and T Chandra (Wollongong: University of Wollongong) p. 6
Tanaka T, Tabata N, Hatomura T and Shiga C 1975Microalloying ’75 (ed) M Korchynsky (NY: Union Carbide) p. 107
Thomson R C and Bhadeshia H K D H 1994Mater. Sci. Technol. 10 193
Thomson R C and Miller M K 1998Acta Met. 46 2203
Tomitz A and Kaspar R 2000Steel Res. 71 233
Underwood E 1970Quantitative stereology (NY: Addison Wesley)
vanCauter A, Dilewijns J, Horzenberger F, Hubert R A and DeCooman B C 2000J. Mater. Engg. Perf. 9 131
Wilson E G and Gladman T 1988Int. Met. Rev. 33 231
Zidek M, Kubickova B and Raab J 1969Hutnicke Listy 24 98
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Panigrahi, B.K. Processing of low carbon steel plate and hot strip—An overview. Bull Mater Sci 24, 361–371 (2001). https://doi.org/10.1007/BF02708632
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DOI: https://doi.org/10.1007/BF02708632