Metal founding – Process – Shaping liquid metal against a forming surface
Patent
1998-02-06
2000-08-01
Lin, Kuang Y.
Metal founding
Process
Shaping liquid metal against a forming surface
164419, B22D 1100
Patent
active
060952326
DESCRIPTION:
BRIEF SUMMARY
FIELD OF THE INVENTION
The invention is directed to a process for producing metallic composite material in which there is applied to at least one side of a parent strand a material having different material characteristics, and to a device for this purpose comprising a vessel having an opening at its base through which the parent strand can be guided through a metal melt which can be poured into the vessel and rollers for moving the strand when entering and exiting the melt.
BACKGROUND OF THE INVENTION
Essentially, spray compacting and inversion casting are known for connecting two metallic materials, one of which is an endless strand.
Apart from the complicated process management, a drawback in the first of these processes, in which an atomized metal spray is applied to a carrier section, consists in the substantial spray loss.
Further, the process is substantially limited to rotationally symmetric shapes.
The other method, inversion casting, is known, for example, from EP 0 311 602. A disadvantage of this process, in which a parent strand is guided through a melt and out of the bath such that it adheres to the surface thereof, is the requirement that the material of the parent strand be identical to or at least similar to that of the molten bath.
SUMMARY OF THE INVENTION
The object of the invention is to provide a process and a device required therefor by which metallic composite material sections whose material characteristics are distinctly different and which differ especially widely with respect to solidification temperature and melting point are produced in a simple manner.
According to the invention, a parent strand including a first amount of material per unit length is guided through a melt having the same material composition as the parent strand. As the parent strand is guided through the melt, a second amount of melt bonds with the parent strand to form a carrier strand. The speed at which the parent strand is guided is controlled so that the second amount of the melt which bonds per unit length to the parent strand is three to six times the first amount of material per unit length of the parent strand. A composite section is added to this carrier strand immediately after the carrier strand exits the molten bath and is welded with the carrier strand. The conventional problems associated with the welding together different materials of two and three-layer sheets such, for example, as connecting an austenitic steel with a carbon-containing steel are avoided using the inventive process as parent strand enters an austenitic melt at an operating temperature of 1465.degree. C., which is accordingly at 15.degree. C. above the melting point, the parent strand cannot melt at its surface with a melting point of 1520.degree. C. A fast welding does not take place when there is such a great difference between the two melting temperatures.
According to the invention, for example, when producing strips where the finished strip has a thickness between 4 and 10 mm, a parent strip of C-steel is guided through a melt of identical or similar quality material (with respect to analysis). The three-fold to six-fold amount of melt crystallizes on both sides of this parent strip and the parent strip exits the molten bath as a carrier strip with a thickness of approximately 4 to 7 mm, with a carrier strip surface temperature of 1520.degree. C. and in a pasty state. A thin composite strip with a thickness of roughly 0.2 to 1 mm is added to this carrier strip above the surface of the bath. The composite strip may be austenite, ferrite, or a nickel-containing steel whose melting point is in the range of 3% to 4% below the melting point of the melt. For this purpose, pairs of rollers are provided which, acting as smoothing rollers, weld the preheated thin composite strip with the carbon-containing carrier strip which is still partially liquid or still pasty (that is, the carbon-containing carrier strip is not completely solidified at its surface and still has a relatively high temperature).
The composite section, e.
REFERENCES:
patent: 3350773 (1967-11-01), Beebe, Jr. et al.
patent: 4257549 (1981-03-01), Bricmont
El Gammal Tarek
Megahed Gamal Mohamed
Pleschuitschnigg Fritz-Peter
von Hagen Ingo
Lin Kuang Y.
Mannesmann Aktiengesellschaft
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