A temperature predicting model for manufacturing processes requiring coiling

A model for predicting temperature evolution for automatic controling systems in manufacturing processes requiring the coiling of bars in the transfer table is presented. Although the method is of a general nature, the presentation in this work refers to the manufacturing of steel plates in hot roll...

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Veröffentlicht in:	Revista brasileira de ciências mecãnicas 1999-12, Vol.21 (4), p.655-663
Hauptverfasser:	Troyani, Nando, Montano, Luis
Format:	Artikel
Sprache:	eng
Schlagworte:	ENGINEERING, MECHANICAL Finite element method Heat transfer Least squares approximations Mathematical models Partial differential equations Plates (structural components) Polynomials Problem solving Process control Steel
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creator	Troyani, Nando Montano, Luis
description	A model for predicting temperature evolution for automatic controling systems in manufacturing processes requiring the coiling of bars in the transfer table is presented. Although the method is of a general nature, the presentation in this work refers to the manufacturing of steel plates in hot rolling mills. The predicting strategy is based on a mathematical model of the evolution of temperature in a coiling and uncoiling bar and is presented in the form of a parabolic partial differential equation for a shape changing domain. The mathematical model is solved numerically by a space discretization via geometrically adaptive finite elements which accomodate the change in shape of the domain, using a computationally novel treatment of the resulting thermal contact problem due to coiling. Time is discretized according to a Crank-Nicolson scheme. Since the actual physical process takes less time than the time required by the process controlling computer to solve the full mathematical model, a special predictive device was developed, in the form of a set of least squares polynomials, based on the off-line numerical solution of the mathematical model.
doi_str_mv	10.1590/S0100-73861999000400008
format	Article
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subjects	ENGINEERING, MECHANICAL Finite element method Heat transfer Least squares approximations Mathematical models Partial differential equations Plates (structural components) Polynomials Problem solving Process control Steel
title	A temperature predicting model for manufacturing processes requiring coiling
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