Cast alloys

Alloys or metallic compositions – Aluminum base – Copper containing

Reexamination Certificate

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C420S544000, C420S542000, C420S549000

Reexamination Certificate

active

06334978

ABSTRACT:

FIELD OF THE INVENTION
The present invention is directed to the improvement in the casting of aluminum and aluminum alloys and the products made therefrom by the addition of small quantities of strontium and/or alkaline earth, rare earth, and/or transition metal combinations.
BACKGROUND OF THE INVENTION
Since the introduction of the Hall process and its progeny, the commercialization of aluminum and aluminum alloys (“Alloys”) has created a giant of an industry. In commercializing Alloys, it has been found that material properties such as strength, toughness and fatigue crack growth rates are important considerations in the final product, dependent upon product use.
Equally important, in many industries, to the physical properties entwined in Alloys is the physical appearance of the finished product. A cottage industry has grown up around the Alloy industry simply to make the Alloys look nice. Examples of such auxiliary industries are those created to manufacture methods to scalp an as-made ingot to rid the ingot of surface imperfections and/or edge cutters to rid the ingot of edge imperfections to name a few.
There are some imperfections in the casting of Alloys that can not be cured by cosmetic fixes. Some imperfections cause the cast piece to crack before it is worked. These are called various things by those skilled in the art and different companies have developed their own names for these imperfections. Such imperfections can include but are not limited to vertical folds, folds, pits, oxide patches, oxides or oxide clusters that become embedded in the surface in a solid ingot. A vertical fold is a V-shaped indentation in the surface of a rolling ingot that is oriented in the longitudinal direction of the ingot. Some vertical folds initiate cracking of the ingot. A cracked ingot needs to be re-melted and re-cast since such an ingot can not be further processed or sold to a downstream customer. Re-melting and Re-casting ingots is not only inconvenient but is also costly thereby reducing the efficiency of an Alloy mill. Most if not all ingots are worked in some manner, however, working will not heal a cracked ingot. Other surface imperfections may also serve as crack initiators. As is clear from the above, surface imperfections in ingots remain a problem in the Alloy art.
Working, as that term has become known in the Alloy industry, can mean a lot of different things such as but not limited to hot rolling, cold rolling, extruding, forgiving, drawing, ironing, heat treating, aging, forming, and stretching to name a few. In working or forming an Alloy, energy is put into the workpiece but it is not always homogeneously distributed.
The casting of Alloys may be promoted by any number of methods known to those skilled in the art. Examples of casting techniques are direct chill (“DC”), electromagnetic (“EMC”), horizontal direct chill (“HDC”), FDC casting, hot top casting, continuous casting, semi-continuous casting, die casting, roll casting, and sand casting. Each of these methods of casting has a set of its own inherent problems but with each technique, surface imperfections can still be an issue. Vertical folds are an issue with DC and EMC casting.
Alloys may comprise any of the Aluminum Association Registered Alloys such as the 1xxx, 2xxx, 3xxx, 4xxx, 5xxx, 6xxx, 7xxx, and 8xxx series alloys. The present invention would also be very useful for any of the foundry alloys. The present invention is found particularly useful for the 2xxx, 3xxx, 5xxx, 6xxx, and 7xxx series alloys. In particular, the addition of strontium and mixtures of strontium, the other alkaline earth metals, the rare earth series of elements and the transition elements it is found advantageous to add small quantities, no greater than 0.5 weight per cent in Alloys such as 2024, 2524, 3004, 5042, 5083, 5182, 6013, 6063, 7075, 7x55, and 7x50, to name a few. The additions hereof to Alloys is helpful after the Alloys are worked whether the Alloys are foil, sheet, stock plate, that is plate thicker than half an inch upwards to about 8 inches or more, aircraft skin, can body stock, end stock, and/or extrusions. It is found that the small additions made to the ingot also have other appearance enhancing effects that survive in a worked piece if the cast surface is not removed from the metal before working.
It has been found by the inventive addition of strontium that fewer oxides are created on the surface of the ingot. The significance of inhibiting the creation of certain of the defects to the ingot makes it possible to make a shallower scalp or perhaps not having to scalp at all. Scalping is the process of taking a surface layer off of the faces and sides of an ingot after it has solidified. The present invention provides for less alloy waste from the ingot if a shallower scalping is sufficient.
U.S. Pat. No. 5,469,911 addressed the surface quality issue in EM casting with the addition of small amounts of calcium to the alloy that was added prior to the ingot head. U.S. Pat. No. 4,377,425 addresses problems in DC casting through the use of similar amounts of calcium. Both claim to provide a surface free of many surface imperfections commonly associated with casting ingots but neither claim to be effective for a broad range of casting techniques. It is this across the board improvement in casting techniques that confounds the prior art.
The invention hereof has surprisingly shown that small amounts of strontium in Alloys can not only eliminate many surface imperfections, especially vertical folds, and pits but also enhances the reflectance of the Alloys. Additions of strontium and combinations are also found to reduce the oxidation of molten Alloys. Eliminating surface imperfections and reducing oxidation will increase product recovery at various process steps and thereby reduce production costs and increase the output of the production facility. Reducing oxidation will reduce losses of metal during melting, holding, and casting. This is known as melt loss. The invention is found to be useful in the canning and other container structures, transportation such as airplanes, trains, boats, and cars, as appearance of the metal may be found advantageous to the consuming public.
SUMMARY OF THE INVENTION
The present invention is directed to the addition of small amounts of strontium and optionally up to about 0.25 weight percent grain refiners, the remaining alkaline earth metals, transition metals, and/or rare earth metals in combination with aluminum and aluminum alloys as a melt in order to improve the appearance and/or substantially eliminate surface imperfections and/or reduce surface oxidation in cast ingot aluminum and aluminum alloys. The addition of the small amounts of these additives were found to surprisingly substantially eliminate vertical folds, pits and ingot cracking in more than one casting technique. The additions also improved the appearance of the ingots, including reflectance. As a result the ingots could be reduced or worked essentially right out of the casting without first conditioning the surface by, for example, scalping. The additions reduced the depth of lapping on DC cast ingots. The amount of strontium added can be as much as 0.50, 0.40, 0.30, 0.29, 0.25, or 0.15 weight percent but can be as little as 0.0001 weight per cent when combined with other metals and/or grain refiners. The range of strontium addition includes but is not limited to 0.001 weight per cent increments, such as 0.0011, 0.0012, 0.0013 etc. and includes but is not limited to incremental increases of 0.01 and 0.1 weight per cent. Optional combinations of strontium and alkaline earth elements such as magnesium, calcium, barium, or beryllium can be found to be useful as are additions of the rare earth metals such as holmium, cerium, erbium, lanthanum, and the other lanthanide and rare earth series of elements and some combination thereof, as well as small combinations of strontium and the transition metals such as titanium, scandium, and silver. It is found when combining strontium with the other aforementioned metals that it i

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