Control in continuous casting to enhance feeding
First Claim
1. A method for optimally operating a wheel-type continuous caster, such that solidification porosity and macrosegregation in the continuous strand thus produced is substantially minimized while casting rate is substantially maximized, comprising the steps:
- (a) first, establishing operation of said caster at a condition of steady-state continuous casting, with cooling set at substantially maximum capacity to produce an apex of solidification at a location where the casting completely solidifies;
(b) monitoring the location of the apex of the solidification zone within the solidifying strand being cast;
(c) if said solidification apex is not located downcourse of the lowermost wheel position, then increasing casting speed until the apex is located downcourse of the lowermost wheel position;
(d) monitoring the presence of solidification porosity within said strand downcourse of said solidification apex;
(e) adjusting casting conditions according to the criteria;
(i) if porosity is present, decrease casting speed so as to shift said apex counter to the direction of casting and in the direction of increasing metalostatic pressure until formation of solidification porosity is substantially minimized;
further provided that if said apex has been shifted substantially to the lowermost wheel position without achieving said minimization, then decreasing cooling sufficiently to shift said apex downcourse of the lowermost position by a selected distance and then repeating the procedure of this substep;
or(ii) if porosity is not present, increase casting speed so as to shift said apex in the direction of casting until formation of porosity impends; and
(f) maintaining casting conditions within a desired porosity tolerance range about said adjusted conditions.
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Abstract
A method is provided for optimally operating a wheel-type continuous caster such that solidification porosity and macrosegregation in the continuous strand thus produced is substantially minimized while casting speed is substantially maximized subject to that condition. Continuous casting is adjusted from an operational condition where solidification porosity is forming by changing the solidification rate so as to cause the terminus of the solidification zone to shift location in the direction of increasing metalostatic pressure until the point where solidification porosity ceases to form or its occurrence is minimized; further provided that in the vicinity of the solidification terminus the direction of increasing metalostatic pressure is maintained counter to the direction of casting. Conversely, from an operational condition where solidification porosity is not forming, solidification rate is changed so as to cause the solidification terminus to shift location in the direction of casting and in the direction of decreasing metalostatic pressure until formation of solidification porosity impends. Advantageously, this system may be utilized continuously to correct continually for perturbations during continuous casting. Additionally, the invention comprehends a continuously cast strand of indefinite length produced by the above method wherein macroscopic solidification porosity has been substantially eliminated and macrosegregation has been substantially minimized. This advance is especially important for alloys that are particularly susceptible to solidification bridging defects in casting, such as those alloys having a large freezing range.
49 Citations
7 Claims
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1. A method for optimally operating a wheel-type continuous caster, such that solidification porosity and macrosegregation in the continuous strand thus produced is substantially minimized while casting rate is substantially maximized, comprising the steps:
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(a) first, establishing operation of said caster at a condition of steady-state continuous casting, with cooling set at substantially maximum capacity to produce an apex of solidification at a location where the casting completely solidifies; (b) monitoring the location of the apex of the solidification zone within the solidifying strand being cast; (c) if said solidification apex is not located downcourse of the lowermost wheel position, then increasing casting speed until the apex is located downcourse of the lowermost wheel position; (d) monitoring the presence of solidification porosity within said strand downcourse of said solidification apex; (e) adjusting casting conditions according to the criteria; (i) if porosity is present, decrease casting speed so as to shift said apex counter to the direction of casting and in the direction of increasing metalostatic pressure until formation of solidification porosity is substantially minimized;
further provided that if said apex has been shifted substantially to the lowermost wheel position without achieving said minimization, then decreasing cooling sufficiently to shift said apex downcourse of the lowermost position by a selected distance and then repeating the procedure of this substep;
or(ii) if porosity is not present, increase casting speed so as to shift said apex in the direction of casting until formation of porosity impends; and (f) maintaining casting conditions within a desired porosity tolerance range about said adjusted conditions. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for optimally operating a wheel-type continuous caster, such that solidification porosity and macrosegregation in the continuous strand thus produced is substantially minimized while casting rate is substantially maximized, comprising the steps:
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(a) first, establishing operation of said caster at a condition of steady-state continuous casting, with cooling set at substantially maximum capacity to produce an apex of solidification at a location where the casting compeletly solidifies; (b) monitoring the location of the apex of the solidification zone within the solidifying strand being cast; (c) if said solidification apex is not located downcourse of the lowermost wheel position, then increasing casting speed until the apex is located downcourse of the lowermost wheel position; (d) monitoring the presence of solidification porosity within said strand downcourse of said solidification apex; (e) controlling casting conditions according to the criteria; (i) if porosity is present, decrease casting speed so as to shift said apex counter to the direction of casting and in the direction of increasing metalostatic pressure until formation of solidification porosity is substantially minimized;
further provided that if said apex has been shifted substantially to the lowermost wheel position without achieving said minimization, then decreasing cooling sufficiently to shift said apex downcourse of the lowermost position by a selected distance and then repeating the procedure of this substep;
or(ii) if porosity is not present, increase casting speed so as to shift said apex in the direction of casting until formation of porosity impends; and (f) controlling casting conditions within a desired porosity tolerance range about said conditions.
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Specification