DE19625807A1 - Alloys based on gold - Google Patents

Abstract

The alloy is based on gold and is suitable for use in the jewelry field far production of jewelry articles, coins and gold rods, with a titer variable between 8-22 karats and has a variable percentage or other components among which silver, copper, zinc in a ternary alloy, quaternary alloy and others. The alloy contains the titanium element. A satisfactory ratio is achieved between the aging time and the hardness in the thermal treatment carried out during the aging process.

Description

The present invention relates to alloys on the Base of gold in the field of goldsmithing for the production of goldsmith items as well as coins and Gold bars with different gold grades (Fine) from 8 to 22 carats and different Shares in other components, including silver, copper and zinc can be used.

As is well known, pure gold is extremely soft, while for Manufacture of goldsmiths a material is required, which is particularly hard and durable and maintains a warm and brilliant color at the same time.

Alloys based on gold are generally used based on the ternary system Au-Ag-Cu and have different finenesses from 8 to 24 carats. Intermediate commercial finenesses are 9, 10, 12, 14, 18, 20, 21 and 22 carats.

The investigations have been limited until recently  about gold, a metal that has been used for centuries Jewelry purposes especially because of its special color and used because of its pollution resistance is easily editable and attractively colored Alloys.

With the increase in the gold price to be determined Times has exceeded $ 800 an ounce, it is obviously become necessary over lighter, but to have permanent jewelry.

Furthermore, it is for particularly striking objects, especially (hollow) bracelets, earrings and also for the Production of very fine chains or the like Products such as those found in Italian Patent application VI 95A000085 by the same applicant are required, lighter and more durable To provide products that are not only economical but also has aesthetic reasons.

These requirements have led to the three Basic elements that are the ingredients for jewelry alloys represent, other metals have been added in the pure state are.

Zinc is the metal that predominantly forms the usual quaternary alloy based on gold is used. It is used in small quantities (less than 0.5%) as a reducing agent or in larger quantities, for example up to 10% or more to modify the Color, workability and mechanical Properties added.  

The system of alloys includes gold-silver-copper-zinc virtually all gold alloys commonly used for jewelry manufacturing can be used.

These alloys differ in that percentages of the four basic elements are added to other metals, such as nickel, cobalt, Iron, silicon, boron, ruthenium, iridium, indium and other.

Exemplary patent publications are described below listed in connection with the above described facts stand and the thereby are marked that they have different components for the formation of an alloy based on gold contain:

• US-2 141 157 (Peterson): 33 to 84% gold, 10 to 67% Copper, 2 to 10% zinc, 2 to 10% silver and 0.1 to 5% Cobalt, the cobalt being reversible Curing is used.
• US-2,229,463 (Leach): 35 to 75% gold, 5 to 25% silver, 12 to 35% copper, 0.1 to 12% zinc and 1 to 5% iron, where the iron to achieve a reversible or irreversible curing is used.
• US-2,248,100 (Loebich): 33 to 66% gold, 1 to 30% Silver, 10 to 55% copper, 0.5 to 15% zinc and 0.1 to 5% Iron.
• US 3,981,723: an alloy based on white gold  Containing palladium, silver, indium and 0.005% Iridium or ruthenium.
• - Reference is also made to the latest alloys, the in U.S. 5,180,551 (Leach & Garner) and U.S. 5,173,132 (Solomon) are described. Here are different percentage combinations of cobalt and nickel with the Used to significantly improve the goal Preserve grain structure, optimize the color and the increase mechanical resistance.

With the present invention, further alloys suggested by the presence of the element Titanium, which is an essential feature of the invention represents are marked.

The hardness of the alloy is due to signs of precipitation the solid phase or on transition phenomena during attributed to the disorder order phase below certain temperatures and for certain atomic ratios of the alloying elements occur.

This is where the effect of titanium, the with participation in the aforementioned precipitations the alloy of which it is a component, new properties gives.

As can be seen from the list of the above, the state of the Technique in the field of goldsmithing Patent publications reveals the item appears Titan does not do this because the machining of alloys with a special measure  requires, which is due to the fact that this Element a significant at elevated temperatures Reactivity with air, oxygen, nitrogen and Has carbon. These measures exist usually in the formation of a protective atmosphere during the treatment steps of solubilization, aging, Cold working, melting or similar processes.

Titanium is a suitable alloying element for gold alloys the current state of the art only in the known Gold alloy with the designation "Gold 990" included.

The 990 gold alloy is a high quality alloy that emerged in research during the 70′s and which was designed to solve two problems: hardening an alloy with a very low percentage on alloying elements; and deployment at the same time an alloy that meets aesthetic requirements, including in in terms of color.

It became an alloy with a fineness of 23.76 Karat gold and 1 wt .-% titanium developed at the Use an equivalent resistance as one Has 18 carat alloy; see. especially US-1 023 334 and DE-35 02 914.5.

Titan is also in the form of titanium nitrite at galvanic treatment for surface hardening to increase the durability and abrasion resistance of Jewelery with a high degree of fineness available (see A. R. Zielonka Gold Tecnology, No. 14, November 1994).  

The present invention relates to the provision of Gold-based alloys with a fineness of 8 to 22 carats, based on the ternary system Au-Ag-Cu, the elements Zn, Ru, Ir, B, Si, In and others may be included; the inventive Alloys are characterized in that they always contain the element titanium.

In particular, titanium replaces two elements in practice, previously used to manufacture jewelry nickel and cobalt.

These two elements have the disadvantage that they are ferromagnetic and their presence in the alloy the sale of jewelry in the markets where restrictive provisions apply in this regard.

It is also known that nickel forms heavy forms of May cause skin allergies. For this reason, in numerous countries, including Japan, the UK and Germany, enact provisions regulating the distribution of Goldsmith products containing this element restrict.

By providing an alloy based on Gold, which is about 58.5% gold and 5 to 10% silver, 15 to Contains 25% copper, 10 to 20% zinc and 0.1 to 1% titanium, a gold product is provided that is suitable for the Suitable applications described above, a remarkable mechanical strength and durability has (160 HV with annealing treatment and even 280 HV with an aging treatment, with a grain size of  8 ASTM) and at the same time has a pleasant color that similar to the color of the most common alloy is 18 carats (see the table below).

The aforementioned properties also result from the drawing. The diagram of FIG. 1 shows the relationship between the duration of treatment and the hardness in a thermal aging treatment.

The special amounts of each pure metal contained in % By weight are given, depending on the specific Applications of the gold-based alloy can be varied.

The invention thus describes the provision of Gold alloys based on the ternary system Au-Ag-Cu as well as quaternary type alloys and others Alloys with variable titanium contents, depending on Purpose.

Claims (5)

1. Alloys based on gold of the at least ternary type (Au-Ag-Cu) with a fineness of 8 to 22 carats and in different percentage, weight-based combinations that are suitable for the production of jewelry, coins and gold bars, characterized in that the use of titanium is provided. 2. Gold-based alloys according to claim 1, characterized in that the use of titanium in quaternary type gold alloys (Au-Ag-Cu-Zn) with a purity of 8 to 22 carats and with different percentages, based on weight related combinations is provided. 3. Gold-based alloys according to claim 1, characterized in that the use of titanium is provided in gold alloys that match at least the ternary type (Au-Ag-Cu) and one Fineness from 8 to 22 carats as well as different percentage combinations based on weight have, in addition, small amounts of others Elements such as silicon, boron, indium, iridium, Ruthenium and others are present. 4. Gold-based alloys according to claim 2, characterized in that the use of titanium  in quaternary alloys (Au-Ag-Cu-Zn) with 8 to 22 Carat fineness in different percentages, combinations based on weight are provided is, with also small amounts of others Elements such as silicon, boron, indium, ruthenium, Iridium and others are present. 5. Alloys according to one of the preceding claims, characterized in that chosen as basic elements are: about 58.5% by weight gold, 5 to 10% by weight silver, 15 to 25% by weight copper, 10 to 20% by weight zinc and 0.1 up to 1% by weight of titanium.