Metal founding – Process – Shaping liquid metal against a forming surface
Patent
1993-07-23
1995-01-31
Lin, Kuang Y.
Metal founding
Process
Shaping liquid metal against a forming surface
164503, 164428, 164480, B22D 1106, B22D 2702
Patent
active
053852010
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
This invention relates generally to the casting of metal sheets and is particularly directed to the vertical casting of metal sheets between counter rotating rollers.
Steel making occupies a central economic role and represents a significant fraction of the energy consumption of many industrialized nations. The bulk of steel making operations involves the production of steel plate and sheet. Present steel mill practice typically produces thin steel sheets by pouring liquid steel into a mold, whereupon the liquid steel solidifies upon contact with the cold mold surface. The solidified steel leaves the mold either as an ingot or as a continuous slab after it is cooled typically by water circulating within the mold wall during a solidification process. In either case, the solid steel is relatively thick, e.g., 6 inches or greater, and must be subsequently processed to reduce the thickness to the desired value and to improve metallurgical properties. The mold-formed steel is usually characterized by a surface roughened by defects, such as cold folds, liquation, hot tears and the like which result primarily from contact between the mold and the solidifying metallic shell. In addition, the steel ingot or sheet thus cast also frequently exhibits considerable alloy segregation in its surface zone due to the initial cooling of the metal surface from the direct application of a coolant. Subsequent fabrication steps, such as rolling, extruding, forging and the like, usually require the scalping of the ingot or sheet prior to working to remove both the surface defects as well as the alloy deficient zone adjacent to its surface. These additional steps, of course, increase the complexity and expense of steel production.
Steel sheet thickness reduction is accomplished by a rolling mill which is very capital intensive and consumes large amounts of energy. The rolling process therefore contributes substantially to the cost of the steel sheet. In a typical installation, a 10 inch thick steel slab must be manipulated by at least ten rolling machines to reduce its thickness. The rolling mill may extend as much as one-half mile and cost as much as $500 million.
Compared to current practice, a large reduction in steel sheet total cost and in the energy required for its production could be achieved if the sheets could be cast in near net shape, i.e. in shape and size closely approximating the final desired product. This would reduce the rolling mill operation and would result in a large savings in energy. There are several technologies currently under development which attempt to achieve these advantages by forming the steel sheets in the casting process.
One approach under consideration by the steel industry to reduce processing involves roller casting of sheets of steel. This method was originally conceived by H. Bessemer over 100 years ago as described in British patent nos. 11,317 (1847) and 49,053 (1857) and a paper to the Iron and Steel Institute, U.K. (October 1891). This roller casting method produces steel sheets by pouring molten steel between counter rotating twin-rollers. The rollers are separated by a gap. Rotation of the rollers forces the molten metal through the gap between the rollers. Mechanical seals are necessary to contain the molten metal at the edges of the rollers. The rollers are made from a metal with high thermal conductivity, such as copper or copper alloys, and water-cooled in order to solidify the skin of the molten metal before it leaves the gap between the rollers. The metal leaves the rollers in the form of a strip or sheet. This sheet can be further cooled by water or other suitable means via jets. This method has the drawback that the mechanical seals used to contain the molten metal at the roller edges are in physical contact with both the rotating rollers and molten metal and therefore subject to water, leaking, clogging, freezing and large thermal gradients. Furthermore, contact between the mechanical seals and the solidifying metal can cause irregularities along
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ARCH Development Corporation
Lin Kuang Y.
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