DE19719677C2 - Use of a precious metal alloy in the dental field - Google Patents

Description

The invention relates to the use of a noble metal alloy in the dental field.

In the dental sector, precious metal alloys based on Gold used. In addition to good mechanical properties, these should in particular of great hardness, have a distinctive golden yellow color.

In the case of veneering, one made from the precious metal alloy mentioned Articles with low-melting ceramic result in further requirements. To the the noble metal alloy is supposed to have an adapted to the ceramic expansion coefficients and a solidus temperature of at least 900 ° C. To the another is the noble metal alloy with a thermal treatment an oxide layer with the brightest possible color.  

In order to obtain the above-mentioned properties of a noble metal alloy, it is known to use copper, indium and tin. Such a precious metal alloy is - however as electrode material for electric arcs - from DE-OS 20 25 897 known. However, efforts are increasingly being made to approach the elements mentioned waive because they have negative biological effects. Copper has the Example of cell toxic effects. In addition, copper leads to dark Oxide layers. Indium and tin form unstable oxides, which form when using the Precious metal alloy for dentures have been found to be harmful.

The invention is based on the object of being usable in the dental field Specify precious metal alloy that is at least copper-free and with as few as possible Alloy elements meets the requirements mentioned above.

The stated object is achieved by claim 1. The precious metal alloy fulfills that Requirements for high hardness, strength, golden yellow color, corrosion resistance and Tarnish resistance.

In addition to copper, the noble metal alloy preferably also lacks tin and / or indium. According to a further development of the invention, magnesium and / or calcium are also missing. This means that not only can a variety of different alloy components be used in the Precious metal alloy can be saved; there are also no biological or toxic ones Considerable elements.

According to a preferred development of the precious metal alloy, its proportion is manganese under the proportion of platinum and / or palladium. This way the precious metal content the alloy is not significantly reduced by the addition of manganese.

In addition to its distinctive gold color and a solidus temperature of over 900 ° C, especially over 970 ° C, the precious metal alloy is characterized by a hardness of 250 HV5 and an expansion coefficient of over 15 × 10 ^-6 in the range from 20 to 500 ° C ,

The proportion of gold in the precious metal alloy can also be 65 to 75 percent by mass be. The proportion of silver may be between 10 and 20 percent by mass. Finally, the proportion of platinum is in particular only 1 to 4 percent by mass. Together is the proportion of gold, silver and platinum and / or optionally palladium in the Noble metal alloy according to the invention at least 90 percent by mass.  

The noble metal alloy has proven to be the ideal material for such dentures with ceramics, in particular low-melting ceramics, or ceramic-like material is blinded. The precious metal alloy with the features shown above is also suitable for use in the field of implant prosthetics. From the precious metal Alloy is also particularly good for dentures in the form of bridges and / or Make crowns.

Surprisingly, it has been shown that the precious metal alloy after a thermal Treatment, especially after ceramic firing, forms a relatively light oxide, which is also easy to remove. The oxide can preferably be etched away an acid or the like. Furthermore, it has been shown that the following thermal treatments in the temperature range for firing the ceramic (approx 900 to 970 ° C) no dark oxide coloring  more occurs. It has to do with the fact that for the dark oxide color responsible element manganese in the first thermal treatment is diffused to the surface and the blackening caused by oxidation during etching can be eliminated. The fact that the proportions of zinc by Etching can be removed, arises after refinement of the Surface of an alloy that is essentially only composed of gold, silver and platinum. This surface of the Alloy or the workpiece made from it has the desired golden yellow color and is beyond highly corrosion-resistant and extremely biocompatible. The The workpiece maintains mechanical stability through the Inside alloy components besides gold, silver and platinum.

The composition of the precious metal alloy is given in the table below. So far in this Table in a column of several components or elements have been named, the mass fraction given relates on the total amount of a mixture of several or all of these Elements or the mass fraction of each of the above Elements.

Another example of the composition of the Precious metal alloy results from the following Table, the mass data to several in one column mentioned components or elements in turn refer to a Mixing several or all of the columns mentioned Components or individual components can refer.

Two preferred precious metal alloys are in the after the following table, again several in one Components or elements mentioned to achieve the column mentioned mass fraction can be mixed.

Alloy 1

Alloy 2

The noble metal alloy according to each of the examples mentioned above is suitable especially for use in the dental sector, namely for the formation of dentures such as for example bridges or crowns with a low melting point Ceramic material or a ceramic-like material is veneered. Furthermore, can the precious metal alloy due to its natural gold color even when the tooth is not exposed replacement are used.

The precious metal alloy is also suitable for the formation of crowns, bridges, inlays, Onlays, bars, telescopes or partial prostheses. Has proven to be particularly advantageous proven the precious metal alloy for the formation of implant-supported dentures.

Claims (5)

1. Use a precious metal alloy made of 60 to 80 percent by mass gold, 10 to 30 mass percent silver, 3 to 10 mass percent palladium, 1 to 6 mass percent platinum, 1 up to 6 mass percent zinc, 0.05 to 6 mass percent manganese and 0 to 2 mass percent one or more of the elements iridium, ruthenium, rhenium or rhodium as a material for Dentures. 2. Use of the precious metal alloy according to claim 1 as a material for Ceramic or ceramic-like material veneered dentures. 3. Use of the noble metal alloy according to claim 1 as a material for implant worn and preferably veneered dentures. 4. Use of the noble metal alloy according to one of claims 1 to 3, wherein the Surface of the denture or material is refined.   5. Use according to claim 4, characterized in that the finishing of the Surface of the denture or the material by etching with one in particular Acid has occurred.