Metal deforming – Tool and/or tool holder – Tool comprising closed periphery deforming passageway
Reexamination Certificate
2001-12-19
2004-09-28
Crane, Daniel C. (Department: 3725)
Metal deforming
Tool and/or tool holder
Tool comprising closed periphery deforming passageway
C420S430000
Reexamination Certificate
active
06796162
ABSTRACT:
BACKGROUND OF THE INVENTION
FIELD OF THE INVENTION
The invention relates to a tungsten/heavy metal alloy for tools and to a method of hot-forming or warm forming copper and copper alloys with such tungsten/heavy metal alloys.
During the hot-forming of metals and alloys in the solid state, which is generally done in a temperature range between 700° C. and 1300° C. for materials which require frequent forming, such as steel and copper, the corresponding forming tools are exposed to high thermal and mechanical loads. In particular, rapid temperature changes and chemical reactions or welding of the tool surfaces with the material to be formed impose high demands on the materials from which the forming tools are made.
It is known to use high-temperature resistant alloys, such as for example Inconel® 718 or Stellite® 21, to produce forming tools of this type. When the forming tools produced from these high-temperature resistant alloys are used, edge cracks, which lead to a premature failure of the tool, are typically formed in particular during the extrusion of polygonal sections. Furthermore, when these tools are used for prolonged periods at high temperatures, the dimensional stability decreases on account of a reduction in the hot strength of the alloys as a result of so-called aging phenomena.
Furthermore, it has been known in the pertinent art to use tungsten/heavy metal alloys as materials for forming tools of this type.
The term tungsten/heavy metal alloys is used to refer to alloys which are based on tungsten and, in addition to a tungsten content of the order of magnitude of approximately 80 to 99% by weight, also contain binder metals, such as iron, nickel, cobalt, or copper. The addition of chromium to increase the hardness and to improve the resistance-of heavy metal alloys to corrosion is also known.
The tungsten/heavy metal alloys are generally produced by powder metallurgy, involving compressing the starting powder and sintering with the binder metals in the liquid phase. Compared to pure tungsten, tungsten/heavy metal alloys are relatively ductile and easy to machine.
German patent DE 27 27 892 C2 (corresponding English-language specification GB 1 559 234) describes the use of a tungsten/heavy metal alloy comprising 90 to 97% by weight of tungsten and 2 to 10% by weight of iron and/or nickel. If appropriate, there are also provided up to 8% by weight of alloying elements, such as chromium, molybdenum or cobalt. The alloy is provided for the production of tools for the hot-forming of metals in the solid state.
Metals which are mentioned as being suitable for forming using tools made from this alloy are in particular steel and copper. Tools mentioned include extrusion dies.
When these known tungsten/heavy metal alloys are used for forming tools, the tools are subject to a particularly high frictional stress in particular when forming copper and copper alloys. A chemical reaction with the copper material leads to grooves being formed on the surface of the forming tool, with the result that the surface quality of the formed workpieces is inadequate after only a relatively short time. To avoid this, it is necessary for the tool to undergo complex polishing work at regular, relatively short intervals.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a tungsten/heavy metal alloy for tools suitable in the hot-forming of copper and copper alloys, which overcomes the above-mentioned disadvantages of the heretofore-known devices and methods of this general type and the use of which leads to a considerably reduced formation of grooves on the tool surface and to a reduced formation of edge cracks during the forming of polygonal sections, and therefore to an improved service life of the tools.
With the foregoing and other objects in view there is provided, in accordance with the invention, a tool for hot-forming copper and copper alloys, comprising a tungsten/heavy metal alloy comprising 80 to 89.9% by weight of tungsten, 2 to 7% by weight of chromium, and a remainder of a binder metal.
In accordance with an added feature of the invention, binder metal in the tungsten/heavy metal alloy is nickel and/or iron.
In other words, the objects of the invention are achieved by using a tungsten/heavy metal alloy, consisting of 80 to 89.9% by weight of tungsten, 2 to 7% by weight of chromium, remainder binder metal.
The considerably reduced formation of grooves on the surface of forming tools when using the alloy according to the invention was altogether surprising, since the alloy according to the invention, which has a low tungsten content compared to the known tungsten/heavy metal alloys, does not have either a higher hot hardness or hot strength or an improved resistance to oxidation than these known tungsten/heavy metal alloys or than the high-temperature resistant alloys, for example Inconel® 718, Stellite® 21, which are used for forming tools according to the prior art.
As the person skilled in the art is aware, the resistance to oxidation of tungsten/heavy metal alloys is only improved by a chromium content of 10% by weight and above. However, even at chromium contents of over 7% by weight the alloy according to the invention is made considerably more brittle, so that it is no longer suitable for the production of forming tools. Therefore, it is not possible to explain the effect which results in this reduced formation of grooves.
Forming tools made from the alloy according to the invention do not show any signs of a drop in their excellent resistance to the formation of grooves even after prolonged usage at high temperatures, so that polishing work on the tools can be considerably reduced or even eliminated altogether. When forming polygonal sections, there are no edge cracks on the forming tools even after prolonged usage.
The tungsten/heavy metal alloy according to the invention is most expediently produced by powder metallurgy, involving compressing the starting powder mixture and sintering at a temperature at which the binder metals contained in the alloy are at least partially in the liquid phase. This leads to a virtually 100% density of the alloy.
The finished sintered alloy can if necessary be machined to the desired final shape of the forming tool without difficulty.
The binder in the tungsten/heavy metal alloy preferably consists of nickel and/or iron, although the binder metals nickel and iron may also be completely or partially replaced by other binder metals, such as Mo, Co, Cu, Al, Si, Hf, Ru, Pd and Re.
The use of an alloy comprising 82 to 85% by weight of tungsten, 4 to 6% by weight of chromium and 9 to 14% by weight of nickel and/or iron has proven particularly advantageous.
If the alloy according to the invention is used to produce an extrusion die or an extrusion mandrel, the advantages of a reduction in the formation of surface grooves become particularly apparent. Furthermore, when extruding polygonal sections, the tendency to form edge cracks is reduced compared to alloys which have previously been used, which indicates a relatively improved thermo-mechanical fatigue strength.
The invention will now be explained in more detail below with reference to several exemplary embodiments:
REFERENCES:
patent: 2107122 (1938-02-01), Laise
patent: 2656596 (1953-10-01), Laise
patent: 2778757 (1957-01-01), Conant
patent: 3680354 (1972-08-01), Phillips, Jr.
patent: 3988118 (1976-10-01), Grierson et al.
patent: 4462234 (1984-07-01), Fiorentino et al.
patent: 4786468 (1988-11-01), Wang et al.
patent: 2 213 507 (1972-09-01), None
patent: 27 27 892 (1977-12-01), None
patent: 1 559 234 (1980-01-01), None
Kapoor, David, “Plasma Spraying Tungsten Heavy Alloys”, United States Satutory Invention Registration, H1146, Mar. 2 1993.
Dreer Norbert
Grill Robert
Resch Joachim
Crane Daniel C.
Plansee Aktiengesellschaft
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