Metal treatment – Process of modifying or maintaining internal physical... – With casting or solidifying from melt
Patent
1996-12-18
1999-03-16
Ip, Sikyin
Metal treatment
Process of modifying or maintaining internal physical...
With casting or solidifying from melt
148596, 148615, 148625, 148629, 148634, 148712, 148674, C21D 300, C21D 302, C21D 304
Patent
active
058824456
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
a) Field of the Invention
The invention relates to the field of metallurgic materials processing and is directed to a method for the manufacture of semifinished metal products such as strip or wire from metal materials which have a high melting point and are difficult to shape. The method is applicable, for instance, for the production of soft-magnetic strip from FeSi alloys, for the production of strip from FeCo base alloys, and for the production of cobalt strip or cobalt wire.
b) Description of the Related Art
Some metals and many alloys with desirable technical properties can only be brought to the desired semifinished form, if at all, by means of costly shaping. For example, it is difficult to produce wire from highly pure cobalt by means of shaping. Problems also arise in the shaping of FeSi alloys with more than 4% silicon to form semifinished product used as soft-magnetic materials. In general, those alloys which are difficult to shape are formed chiefly by transition metals, especially alloys having ordered lattice structures.
It is also known to produce metal semifinished products in the form of strip or wire directly from the melt by one of the quick solidification processes. However, this method is difficult to use when the material to be processed has a high melting point (roughly greater than 1400.degree. C.), since the equipment for quick solidification in this case must be produced from work materials which are very expensive and difficult to work with and/or which are prone to rapid wear. This results in high manufacturing costs.
OBJECT AND SUMMARY OF THE INVENTION
The primary object of the invention is to provide a method by which metal materials which have a high melting point and are difficult to shape can be processed to form semifinished products such as strip or wire with manageable techniques and at low cost.
In accordance with the invention, the improved method comprises the steps of a material that has a high melting point and is difficult to shape, melting point in the form of strip or wire directly from the melt by quick solidification, and a) from the semifinished product by heat treatment in a reactive atmosphere.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
According to a preferred embodiment of the invention, at least one element of the group composed of boron, carbon and phosphorous is alloyed with the material in method step a).
The element or elements which reduce the melting point are alloyed in an amount such that the melting point of the alloy is reduced to a temperature of less than 1600.degree. C., preferably less than 1400.degree. C.
Further, the invention provides that hydrogen is used as a reactive atmosphere in method step c) for the heat treatment of the semifinished product. According to an advantageous construction, the heat treatment of the semifinished product is effected first in moist hydrogen at a temperature between 850.degree. and 1000.degree. C. and then in dry hydrogen at a temperature between 1000.degree. and 1250.degree. C.
During the heat treatment of the semifinished product, the hydrogen atmosphere can advisably be renewed continuously or intermittently by means of rinsing.
In order to produce the semifinished product from FeSi alloys with a silicon content of more than 4%, boron is first added to the alloy according to the invention in an amount at which the melting point of the alloy is reduced to less than 1400.degree. C. Semifinished product is then produced from this alloy by means of the method of quick solidification. Finally, this semifinished product is heat-treated at a temperature ranging from 870.degree. to 950.degree. C. for a period of 1.5 to 4 hours in moist hydrogen and, in conclusion, at a temperature ranging from 950.degree. to 1120.degree. C. for a period of at least 1.5 hours in dry hydrogen. The gaseous boron compounds absorbed by the hydrogen atmosphere during the heat treatment are advisably removed from the heat treatment space by rinsing with fresh hydrogen.
The same steps can be taken when
Institut fuer Festkoerper-und Werkstofforschung Dresden e.V.
Ip Sikyin
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