Title

OPTIMIZATION OF HIGH QUALITY PRODUCTION IN HOT ROLLING MILLS USING ADVANCED PROCESS MODELS

Authorship

Ehlert, Detlef; Jepsen, Olaf; Schneider, Gregor

DOI

10.5151/1983-4764-26275

Downloads

heading.download_article_detail 1348 Downloads

Abstract

Flexibility in terms of producing high sophisticated products with an exceptional wide range of properties and dimensions requires physical based process models for the generation of optimal set points. Therefore SMS applies since many years an integrated PSC® (pass schedule model), PCFC® (profile, contour and flatness model) and CSC (cooling section control) for the use in hot strip mills, CSP® plants and plate mills offering best possible product tolerances. Focus during the development of the model was made on the best possible physical description of the rolling process to minimize the need of complex adaptation algorithms. As an addition SMS has also developed a microstructure model to ensure the quality control with respect to mechanical properties and to save up the needs of taking samples. Beside of this the modular design of the Microstructure and Material Property Model (MPM) offers additional benefits to improve the accuracy of the other models, e. g. the recrystallization model in the finishing mill. Using the results of that model strain hardening or softening effects during rolling can be predicted and an optimum pass schedule can be calculated to avoid rolling stability problems related to phase transformation.

 

Keywords

Microstructure, Material property, Rolling stability, Physical process models

Physical process models