Title :
Belt shape stabilization in continuous twin-belt casting machines
Author :
Kagan, Valery G.
Author_Institution :
Hazelett Strip-Casting Corp., Colchester, VT, USA
Abstract :
Thermal deflections of belts, called “belt buckling”, in continuous twin-belt casting machines have been one of the main limitations in the further development of this technology. Belt buckling results not only in distortions of the cast metal slab/strip shape, but more importantly, in the metal surface quality and metallurgical properties of alloys. During the last several years, new methods have been developed to resolve this problem. These methods are based on usage of magnetic and hydrodynamic forces. This paper describes a mechanism of the thermal deflections and presents concepts, designs, comparison, mathematical descriptions and experimental data relating to traditional and novel remedies that reduce these deflections by more than two orders of magnitude
Keywords :
casting; control system synthesis; metallurgical industries; process control; quality control; shape control; stability; thermal analysis; belt buckling; belt shape stabilization; cast metal slab/strip shape; continuous twin-belt casting machines; hydrodynamic forces; magnetic forces; metal surface quality; metallurgical properties; thermal deflections; Belts; Boundary conditions; Casting; Lakes; Pulleys; Shape memory alloys; Slabs; Strips; Temperature; Thermal stresses;
Conference_Titel :
Industry Applications Conference, 2000. Conference Record of the 2000 IEEE
Conference_Location :
Rome
Print_ISBN :
0-7803-6401-5
DOI :
10.1109/IAS.2000.883184
