DE3027472A1 - GOLD-BASED PREPARATION FOR COVERING METAL PARTS - Google Patents

Abstract

For the veneering of ceramic alloys in the dental laboratory there is a need, in order to produce intermediate layers, for gold-containing products which are intended to improve the adhesion, ensure an aesthetic appearance and make sparing use of gold possible. This is achieved with a product which contains 50 to 94 % gold powder with a particle size < 30 mu m, 5-40 % binder composed of organic solvent and resin constituents and 1-20 % of a metal powder whose particle size is greater than that of the gold powder used and whose melting point is above that of gold.

Description

D e g u s s a Aktiengesellschaft

6000 Frankfurt am Main Gold-containing preparation for coating metallic materials Parts (I) The invention relates to a gold-containing preparation to pull over metallic Parts, in particular for coating bonding alloys in dental technology before veneering with ceramic masses, consisting of gold powder, an adhesive and one that is liquid at room temperature and evaporates at the firing temperature or burning binders from one or more organic solvents and one or more resin ingredients.

The veneering of crowns has been a part of dental technology for many years and bridges made of bonding alloys with ceramic masses are known. Mainly For aesthetic reasons, the metallic crown or bridge framework becomes whole or partially covered with one or more tooth-colored ceramic layers. Gold-rich intermediate layers are also used primarily for ethical reasons, which give the slightly translucent dental porcelain a poorer color background, than the usually metallic-white customary bonding alloys can do.

The previously known gold-containing intermediate layer preparations lead Too very smooth surfaces and can practically not be influenced by the dental technician earth.

The previously known gold preparations are either melted or sintered on and contain gold powder or spherical gold particles (DE-AS 28 51 429), which results in an even layer thickness and a very smooth surface to lead.

On the other hand, the meaning of a sufficient one has long been Interlocking between the metallic bonding alloys and the dental ceramics for known a good network. Just the part of the so-called physical bond depends very much on the size, design and roughness of the ceramic surface to be connected.

From DE-OS 25 25 274 it is known to use gold-containing preparations, which in addition to gold powder and a flux also porcelain and zirconium oxide powder contain very small grain size. However, this preparation performs on stoving the bonding alloy to an unaesthetic gray-white layer.

It was therefore an object of the invention to provide gold-containing preparations for coating to find metallic parts, in particular for coating metal-on alloys in dental technology before veneering with ceramic materials, consisting of gold powder, an adhesion promoter and a liquid at room temperature, at firing temperature volatilizing or burning binders that cause a Ensure the strongest possible interlocking with the dental ceramic, an aesthetic one Appearance and enable economical gold consumption.

This object is achieved according to the invention in that the gold-containing Preparations made from 50 to 94 Ge> - 0 gold powder with a particle size of less than 30 µm, 5 - 40% by weight binder and 1 to 20 Ge G of a metal powder as an adhesive exist, whose particle size is larger than that of the gold powder used and its melting temperature is higher than that of gold.

These preparations preferably contain 65 to 80 wt. 0 gold powder, 15 to 25% by weight binder and 5 to 10% metal powder. Is advantageous the particle size of the gold powder is less than 10 µm.

The binder consists of one or more organic solvents, preferably 60 to 90% by weight and in particular 65 to 85% by weight, and one or more Resin constituents, preferably 10 to 40% by weight and in particular 15 to 35% by weight. The main resin components used are acrylate resins, methacrylates, nitrocellulose, Ethyl cellulose and natural or synthetic rubbers. Find as a solvent Glycol, glycol ethers, glycol esters, terpene hydrocarbons and high boiling aliphatic Use of hydrocarbons.

Palladium, cobalt and / or nickel powder have proven to be the metal powder and / or powder made of palladium, gold, cobalt and / or nickel alloys proven, their particle sizes being larger than that of the gold powder used and their The melting or solidus temperature is above the melting point of gold (10630C) got to. It is advantageous if the alloy powders contain alloying elements, which are also contained in the metallic parts to be coated.

The pasty gold preparations according to the invention can be easily with a brush or a felt on the metal parts to be coated, e.g. crowns or bridges. It has been shown that through the addition of gold The contained metal powder caused surface roughness even after firing the preparations are fully preserved, when the firing temperature is below the melting or solidus temperature of the metallic powder additives. Firing temperatures between 600 and 11000 C and firing times have proven useful between 0.5 and 10 minutes. The gold layers combine under these conditions with all common bonding alloys based on gold-platinum-palladium-silver, Gold-silver, gold-palladium, nickel-chromium, cobalt-chromium and cobalt-palladium too an indissoluble bond. The gold-containing preparations according to the invention are thus suitable for all precious metal-containing and precious metal-free bonding alloys.

The intermediate layer produced in this way provides very good anchoring the ceramic layer with the metallic crown or bridge part. Suitable for this all known dental ceramic materials. Bending tests on ceramic-veneered alloy sheets, which are coated with an intermediate layer of a gold preparation according to the invention were, showed that when the ceramic layer was forcibly detonated from the metal There was breakage in the ceramic itself. A separation of the intermediate layer from the Bond-on alloy or from the ceramic could not be observed in any case.

The following are examples of the compositions of some of the invention gold-containing preparations indicated: 1. 75 Ko gold powder, crystalline, particle size olO pm 5% powder of palladium with 20% gold and 5% tin, particle size 220 µm 15% butyl diglycol acetate 5% polymethyl methacrylate.

2. 65% gold powder, crystalline, particle size clO pm 10% powder Gold with 10% platinum, 3% tin and 2% indium, particle size <37 pm 18th % Butyl diglycol acetate 7% ethyl cellulose 3. 70% gold powder, crystalline, <10 µm 10% palladium powder, <37 µm 15% terpineol 5% nitrocellulose 4. 40% gold powder, crystalline, <10 µm 35% gold powder, platelet-shaped, <10 5% cobalt powder 16% high boiling aliphatic hydrocarbon 4% polyisobutylene 5. 50% gold powder, crystalline, clO 25% gold powder, platelet-shaped, <10 µm 5% powder made of CoCr 27 Mo 5.5 Sii Mn 0.7 Fe 0.5, <37% 15% terpineol 5% ethyl cellulose

Claims (1)

PATENT CLAIMS 1. Preparation containing gold for coating metallic materials Parts, in particular for coating bonding alloys in dental technology before veneering with ceramic masses, consisting of gold powder, an adhesive and one that is liquid at room temperature and evaporates at the firing temperature or burning binders from one or more organic solvents and one or more resin components, characterized in that it consists of 50 up to 94% by weight of gold powder with a particle size of less than 50 μm, 5 to 40% by weight of binders and 1 to 20 Gev- fG of a metal powder as an adhesive, the particle size of which is greater than that of the gold powder used and its melting temperature is above that of gold lies. 2. Gold-containing preparation according to claim i, characterized in that that there are 65 to 80 wt. G gold powder, 15 to 25 wt.% binder and 5 to 10 wt ç Contains metal powder. 5. Gold-containing preparation according to claim 1 and 2, characterized in that that the particle size of the gold powder is less than 10 μm. 4. Gold-containing preparation according to claim 1 to 5, characterized in that that the metal powder is made of palladium, cobalt and / or nickel powder and / or powder Palladium, cobalt, nickel and / or gold alloys can be used. 5. Gold-containing preparation according to claim 1 to 4, characterized in that that the metal powders contain alloying elements, also called alloying elements are contained in the metallic parts to be coated. 6. Gold-containing preparation according to claim i to 5, characterized in that that the binder contains 10 to 40% by weight of resin and 60 to 90% by weight of solvent.