ISSN 2594-5297
53nd Rolling Seminar — vol. 53, num.53 (2016)
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Hot strip structural steel coil used in construction, engineering, transport, structural applications and other applications are widely used in yield strengths from 300 – 700 MPa. However, structural design engineers are now not only requiring various strength levels but also other mechanical properties, primarily good formability, toughness and weldability. To produce a balanced approach to a cost effective structural steel, hot strip coil requires an understanding of utilization of an optimized alloy composition designed for the layout/equipment capabilities of a given hot strip mill to produce the desired metallurgy for optimum mechanical property performance. The term “cost effective” does not just focus on alloy design, but also ease of overall processing from steelmaking, casting, rolling and cooling, stable mechanical properties with a statistically normal distribution, no downgrades/rejections and a product that the end user recognizes as being superior to others. The desired metallurgy is simply understanding what will be the optimum microstructure and cross sectional grain size/distribution needed to meet the mechanical property requirements. This paper is a follow up paper that previously described optimum base alloy designs along with steelmaking/casting processing considerations and will focus on proper reheating, rolling and cooling metallurgy/processing strategies to produce quality cost effective hot strip structural steel coil.
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Grain size, Niobium, Rolling, Cooling
Cooling
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Stalheim, Douglas Glenn;
Barbosa, Ronaldo Antonio Neves Marques;
Bastos, Felipe Monteiro Moraes de Moura;
Gorni, Antonio Augusto;
Rebellato, Marcelo Arantes.
BASIC METALLURGY/PROCESSING DESIGN CONCEPTS FOR OPTIMIZED HOT STRIP STRUCTURAL STEEL IN YIELD STRENGTHS FROM 300–700 MPA
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p. 31-41.
In: 53nd Rolling Seminar,
Rio de Janeiro,
2016.
ISSN: 2594-5297
, DOI 10.5151/1983-4764-27546