ISSN 2594-5297
52º Seminário de Laminação — vol. 52, num.52 (2015)
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Abstract
The Plate-Steckel mill combines the asset utilization of the strip rolling process with the grade and width range of the reversing plate mill, delivering a broad range of steel products at low cost. Among rolling mill types, plate mills are distinctive in the way that they exploit the metallurgical attributes of their product. The downside of this flexibility, though, is a low level of asset utilization. The Plate-Steckel mill was originally developed to combine the utilization of the strip mill and the width of the plate mill. The Plate-Steckel mill is now setting new benchmarks in accessible grades and applications, whilst pushing the width boundaries of the process. Long experience in the Steckel process control and coiler furnace design is coupled with caster and plate mill expertise to deliver high level of performance in this increasingly important plate and coil rolling technique. Several new design features have been incorporated and the vertical integration of mechanics with process models is the key for better product quality and flexibility at these plants. The use of fully automatic thermo-mechanical rolling using the latest physical models and intelligent sequencing strategies achieves the optimum grain refinement and thus improves mechanical properties. The novel profile and flatness strategy relies on comprehensive physical models and makes use of SmartCrown® as a powerful actuator, enabling large reductions to be taken without risking poor flatness. Throughout the rolling and cooling stages of processing, accurate calculation of the thermal-mechanical state of the product is performed by the temperature monitor. This enables tighter control of the final plate mechanical properties by providing an insight into the plate evolution during the thermo-mechanical processing. Advanced pacing functionalities provide an optimized mill throughput, utilizing new cooling bed charging strategies. Considering the rolling process, process automation applies state-of-the-art model calculations to achieve saleable coil/plate target dimensions even in non steady state rolling conditions.
Keywords
Coils, Discrete plate, Coil plate, MULPIC
MULPIC
How to refer
Beaumont, John;
Harvey, Andrew.
2 IN 1 PLATES AND COILS FROM A PLATE STECKEL MILL
,
p. 511-519.
In: 52º Seminário de Laminação,
Rio de Janeiro,
2015.
ISSN: 2594-5297
, DOI 10.5151/1983-4764-27155