DE4306542A1 - Gold@-titanium@ alloys used for dental restoration work - Google Patents

Abstract

An Au-Ti alloy is used in dental restoration work, whereby the alloy contains either 50-91 wt.% Au and 50-9 wt.% Ti, or Au and Ti plus up to 20 wt.% Pt and/or Pd, and/or up to 15 wt.% of another alloy component suitable for dental use.

Description

Dental alloys for restorations in the oral cavity have been around for a long time known.

Amalgam, which consists essentially of mercury, silver, copper and tin is a preferred filler material because the material costs are low and it is easy to work with. However, amalgam fillings have that Disadvantage that they corrode. The ones that get into the body Heavy metals are almost always tolerated. A minority feel However, people show health impairments. Therefore Amalgam should be avoided because of the risk of chronic Heavy metal intake can hardly be estimated.

The situation with dental alloys is similarly problematic Palladium alloys used, the so-called asparagus gold. A typi alloy contains 80% by mass of palladium, 5.0% by mass of copper, 6.5 % By mass of tin and 6.0% by mass of gallium.

With the gold-rich alloys used as dental alloys, health effects due to corrosion A typical alloy contains 70% by mass of gold, 4.4% by mass of Pla tin, 13.5 mass% silver and 8.8 mass% copper. There are already Alloys have been proposed that are made solely of gold and platinum for example from 90% by mass of gold and 10% by mass of platinum, or essentially made of gold and platinum and, for example, 82.6% by mass of gold and 16.1% by mass of platinum. Such alloys are ver equally expensive.

It is already known that pure titanium implants are well tolerated the. So far, pure titanium cannot be processed using a casting technique. It has recently become possible to use a mechanical manufacturing process work that consists of the steps copy milling, spark eroding and if necessary, there is laser welding. According to this procedure, be Crowns and bridges are already made of pure titanium (dental laboratory, XXXIX, Issue 9/91).  

Pure titanium is also subject to minor corrosion in the oral cavity le, whereby the titanium entering the body can have an allergic effect.

The object of the invention is to overcome the shortcomings of the prior art Overcoming technology and providing dental alloys that biover are inert (biocompatible), meet the aesthetic requirements and can be processed under economic conditions.

The object was achieved as indicated in the claims.

The invention thus relates to the use of gold / titanium alloys as dental alloys for restorations in the oral cavity, in particular for abutments, crowns, bridges and inlay work. The alloys are characterized in that, based on the components gold and Titanium, 50 to 91 mass% (approx. 20 to 70 atomic%) gold and 50 to 9 mas contain% (approx. 80 to 30 atom%) titanium and are either binary or, based on the alloy, additionally up to 20, preferably up to up to 10% by mass of platinum and / or palladium and / or up to 15, preferably up to 10% by mass of other alloy alloys suitable for dental alloys components included.

Preferred alloys contain, based on the components gold and Titanium, 50 to 83 mass% (approx. 20 to 55 atom%) gold and 50 to 17 mas sen% (approx. 80 to 45 atom%) titanium.

The binary gold / titanium alloys are already known (Landolt-Börn stone, numerical values and functions from natural sciences and technology, Volume 5 (1991), page 430, Springer Verlag). Their use is against New.

Other alloy components suitable for dental alloys are included for example silver, copper, vanadium, iron, aluminum, niobium, tantalum and Gallium.

The optimization of the alloys with regard to minimal corrosion at gu general properties such as tensile strength, hardness  (Vickers) and elongation at break, can be according to known methods, for example with the crevice corrosion test, carried out (Swiss monthly dentistry, Vol. 97 (1987), 571 ff).

The alloys according to the invention can be used for processing manufacturing processes known from pure titanium, for example to crowns and Bridges to be processed.

It is also possible to use the alloys as baking alloys, ie for the production of parts that are veneered with ceramics (baking ceramics, metal ceramics). It may be advantageous to first coat the part with a bonder (metallic interlayer) to ensure the adhesion between the alloy and the ceramic. Since bonders can contain problematic metals, it is better to veneer the part directly with baked-on ceramic without using a bonder. A ceramic system applied in two layers is suitable for this (company lettering from DUCERA Dental GmbH, Rosbach, 1993). In a first layer, a ceramic is applied, which consists of a glass matrix in which leucite crystals are statistically evenly distributed. The glass matrix has HO-Si groups and is called hydro-thermal glass. The ceramic can be described as a two-phase, hydro-thermal, firable dental ceramic. A low fusing ceramic (LFC) is applied in a second layer. This is a hydrothermal glass, contains no crystal phase and is therefore single-phase. The LFC consists of approx. 75% SiO ₂ , 10% Na ₂ O, 8% Al ₂ 0 ₃ , 2% K ₂ O, 2% CaO, each given in mass%, and little fluoride and B ₂ O ₃ . In the manner described be aesthetically fully satisfactory metal ceramic parts can be obtained.

Claims (4)

1. Use of gold / titanium alloys as dental alloys for restorations in the oral cavity, characterized in that the alloys, based on the constituents gold and titanium, contain 50 to 91% by mass of gold and 50 to 9% by mass of titanium and Either the binary or, based on the alloy, additionally contain up to 20% by mass of platinum and / or palladium and / or up to 15% by mass of other alloy components suitable for dental alloys. 2. Use according to claim 1, characterized, that the alloys up to 10 mass% platinum and / or palladium and / or up to 10% by mass of other Le suitable for dental alloys Ging components included. 3. Use according to claim 1 or 2, characterized, that the alloys, based on the components gold and titanium, 50 contain up to 83 mass% gold and 50 to 17 mass% titanium. 4. Use of the gold / titanium alloys according to one of claims 1 to 3 for the production of crowns and bridges.