DE19525361A1 - Platinum- and/or palladium-contg. gold@ dental alloy - Google Patents

Abstract

A precious metal alloy, esp. a high-gold-content dental alloy, contg. Au with added Pt and/or Pd, additionally contains Mg, Ca and/or pref. in amount less than the Pd and/or Pt content. Pref. the Au alloy contains 0-20 wt.% Pt and/or Pd and 0-6 (pref. 0.7-4, esp. 1.2-3) wt.% Mg, Mn and/or Ca. The alloy may also contain Ir, Ru, Re and/or Rh and opt. Sn, Zn and/or In and pref. contains little or no Ag and/or Cu. Preferred alloys have the compsns. (by wt.): (i) 88-90% Au, 9-10% Pt, 0.5-2.5% Fe, Co, Ni and/or Cr, 0.1-0.3% Ir, Ru, Re and/or Rh, 0.0-0.8% Sn, Zn and/or In and 0.05-3.0% Ca, Mg and/or Mn; or (ii) 70-88% Au, 8-11% Pt, 0.1-0.3% Ir, Ru, Rh and/or Re and 0.5-3% Mn. The false tooth or the alloy is pref. surface treated by etching with an acid esp. so that the surface consists of 90% Au and 10% Pt.

Description

The invention relates to a precious metal alloy, in particular a high gold-containing dental alloy according to the preamble of Claim 1. Furthermore, the invention relates to uses of high-gold precious metal alloys.

In the dental sector, precious metal Alloys based on gold are used. These should ne ben good mechanical properties, especially a large one Hardness, have a pronounced (golden yellow) color.

In particular for veneering one made of high gold Precious metal alloy manufactured object with ceramic, the alloy must have a solidus temperature of at least 1050 ° C exhibit. To achieve such a solidus temperature he an alloy with platinum and / or palladium follows. Both have  the property that they decolorize the precious metal alloy. The yellow color of the gold fades into a pale yellow or a light yellow. To avoid this unwanted color change copper, respectively, is added to the alloy ben. However, efforts are increasingly being made towards copper dispense because of this element's negative biological effects can be said.

The invention is therefore based on the object, a Edelme tall alloy and a use of the same to specify the a solidus temperature of over 1050 ° C in particular in the dental sector.

A precious metal alloy for solving the green of the invention The underlying task has the features of claim 1. By using magnesium, manganese and / or calcium as Surprisingly, it becomes an alloy component to gold is enough that without a significant reduction in the addition of Platinum and / or palladium reached solidus temperatures of over 1050 ° C the precious metal alloy maintains its typical gold color lasts, namely remains deep yellow or golden yellow. It is therefore no longer required, the deep yellow or golden yellow color of the Gold by adding copper to the alloy put.

According to a preferred development of the noble metal alloy the proportion of magnesium, manganese and / or calcium is lower the proportion of platinum or palladium. In this way the Precious metal content of the alloy through the addition of magnesi um, manganese and / or calcium is not significantly reduced.

It is possible to achieve the desired properties of the invention moderate precious metal alloy by adding Man alone to reach magnesium or calcium. Furthermore, can but also a mixture of two or all three named Be components come into consideration, the proportion of each compo nente is preferably about the same size.  

According to a further development of the Er additionally small amounts of iridium, ruthenium, rhe have nium and / or rhodium. Alternatively or additionally tin, zinc and / or indium can be added to the precious metal alloy be given.

In addition to its distinctive gold color and a solidus temperature of over 1050 ° C., in particular 1100 ° C., the noble metal alloy according to the invention is characterized by a hardness of 200 to 250 HV5 and / or an expansion coefficient between 14.0 to 14.5 _* 10 ^-6 out.

The special properties of the noble metal Alloy make them the ideal material on the dental sec gate. The noble metal alloy according to the invention can be used especially good dentures in the form of bridges and / or crowns produce. The inventive material has proven to be the ideal material Precious metal alloy proven for such dentures that with Ceramic or ceramic-like material is veneered.

Surprisingly, it has been shown that the inventive Alloy is a dark oxide, which changes according to the thermal Ceramic firing treatment results in easily removable is. The dark oxide can preferably be etched away by a Acid or the like. Furthermore, surprisingly se shown that in subsequent thermal treatments in Temperature range for firing the ceramic (about 900 to 980 ° C) no dark oxide coloring occurs. It depends together that the Ele. responsible for the dark oxide color Manganese during the first thermal treatment on the upper surface is diffused and with that created by oxidation Black coloring has been removed during the etching. This is one Finishing the surface of the alloy was created by this essentially only gold and platinum preferably about 90% gold and about 10% platinum together puts. This surface of the alloy or herge The workpiece has the desired golden color and is also soft, highly corrosion-resistant and extremely biocompatible. Maintains the mechanical stability  the workpiece through the alloy located inside ingredients other than gold and platinum.

The composition of the noble metal alloy according to the invention is given in the table below. So far in this Table in a column of several components or elements have been named, the stated mass fraction refers to the total amount of a mixture of several or all of these elements elements or the mass fraction of an individual element mentioned.

Another example of the composition of the Invention moderate precious metal alloy results from the following Table, where the mass data to several ge in a column named components or elements in turn refer to a Mi creation of several or all mentioned in the respective column Components or individual components can refer.

Two preferred precious metal alloys are as follows the table given, again several in one column mentioned components or elements to achieve the genann th mass fraction can be mixed. Especially calcium, Manganese or magnesium can only be used with the specified mas proportion of the precious metal alloy. But also a mixture of the same, in particular with the same mass fraction len is possible.

Alloy 1

Alloy 2

The noble metal alloy according to the invention is particularly suitable for use in the dental sector, namely for the formation of Dentures, such as bridges or crowns, with egg ver a ceramic material or a ceramic-like material is dazzled. The precious metal alloy is for this use mainly because of the clearly above the about 960, for example up to 980 ° C firing temperature of ceramic materials lying solidus temperature suitable. In addition, the precious metal alloy according to the invention because of its natural Gold color can also be used with uncovered dentures men.

Claims (15)

1. Precious metal alloy, in particular high-gold-containing valley alloy, with essentially gold and an addition of at least platinum and / or palladium, characterized by at least one further addition of magnesium and / or calcium and / or manganese. 2. precious metal alloy according to claim 1, characterized records that the proportion of magnesium, manganese and / or calcium is less than the proportion of palladium and / or platinum. 3. precious metal alloy according to claim 1 or 2, characterized ge indicates that the proportion of magnesium, manganese and / or Calcium is 0 to 6 percent by mass.   4. Precious metal alloy according to one or more of the claims che 1 to 2, characterized in that the proportion of manganese, Magnesium and / or calcium 0.7 to 4 percent by mass, in particular 1.2 to 3 percent by mass. 5. Noble metal alloy according to one or more of the claims che 1 to 4, characterized in that the proportion of manganese at least 0.05 mass percent, preferably at least 0.1 mas percent, is. 6. Precious metal alloy according to one or more of the claims che 1 to 5, characterized in that the proportion of platinum and / or palladium is 0 to 20 percent by mass. 7. Precious metal alloy according to one or more of the claims che 1 to 5, characterized in that the proportion of platinum 7th up to 12 mass percent, in particular 9 to 10 mass percent wearing. 8. Precious metal alloy according to one or more of the claims che 1 to 7, characterized by an additional portion of Iridium, ruthenium, rhenium and / or rhodium. 9. Precious metal alloy according to one or more of the claims che 1 to 8, characterized by an additional portion of Tin, zinc and / or indium. 10. Precious metal alloy according to one or more of the claims che 1 to 9, characterized in that they have no or almost does not contain silver and / or copper. 11. Use of a high-gold precious metal alloy, the addition to gold of at least platinum and / or palladium as well as magnesium, manganese and / or calcium as teeth sentence. 12. Use of a high-gold precious metal alloy, the addition to gold of at least platinum and / or palladium as well as manganese, magnesium and / or calcium as the material  for veneering with ceramic or ceramic-like material Dentures. 13. Use according to claim 11 or 12, characterized net that the surface of the denture or the material is refined. 14. Use according to claim 13, characterized in that the finishing of the surface of the denture or the work material by etching with an acid. 15. Use according to one or more of claims 11 to 14, characterized in that the surface of the tooth set or material essentially only gold and platinum exhibits, especially about 90% gold and about 10% platinum.