EP1090149A1

EP1090149A1 - Composition for removing oxides in alloys of precious metals or similar

Info

Publication number: EP1090149A1
Application number: EP99931119A
Authority: EP
Inventors: Rosario Muto
Original assignee: Individual
Current assignee: Individual
Priority date: 1998-06-22
Filing date: 1999-06-21
Publication date: 2001-04-11
Anticipated expiration: 2019-06-21
Also published as: ES2200529T3; EP1090149B1; ITFI980148A1; WO1999067431A1; DE69907909D1; AU4774799A; ATE240411T1; DE69907909T2

Abstract

Described are compositions which allow one to stabilise alloys of precious metals or similar by removing the oxides which are formed on the surface or inside the crystal lattice and the use of such compositions in the processes of stabilisation of the above said alloys.

Description

COMPOSITION FOR REMOVING OXIDES IN ALLOYS OF PRECIOUS METALS OR SIMILAR

Field of the Invention

The invention refers to compositions which allow the removal of the oxides, which are formed either superficially or inside the crystal lattice, from alloys of precious metals or similar with the advantage of stabilising the alloys themselves; the invention refers also to the process of stabilisation comprising the use of such composition. State of the art It is known that during the melting processes of ingots of alloys of precious metals or similar for the moulding of different objects, both for aesthetic or industrial purposes, oxides are formed both on the surface and inside the crystal lattice of the metals constituting the alloy. These oxides can be detrimental to the subsequent use of the objects for example by altering their external appearance or causing more serious problems. For example in the case of parts in precious alloys commonly used in dental application (capsules, bridges, pins, inlays, etc.), when these are implanted in the mouth of a patient the oxides can, under the saliva action, be attacked and thereafter absorbed by the patient, similarly the properties of the parts of precious alloys used in electronics can be adversely affected by the formation of oxides.

It is therefore evident how important it is to make available a product which allows the removal of the oxides from precious metals alloys.

Detailed description of the invention

The present invention allows one to overcome the above said problems through the use of compositions of gelatine containing sodium borate.

Such compositions once spread on the objects to be treated and thereafter heated, allow the total removal of superficial and internal oxides possibly formed during the previous working phases of the metal alloy and allow the preparation of products which do not present any of the drawbacks caused by the presence of the oxides.

According to the invention a precious metal or similar alloy is an alloy consisting of metals of the groups VIII and lb of the Periodic Table of Elements, in particular alloys consisting of gold, silver, palladium, iridium, platinum, in all their different possible combinations.

The gelatine in the composition according to the invention is a gelatinous material capable of burning completely when heated, without leaving any residue. Homogeneous materials, i.e. lump-free materials, are preferred since they allow a better spreading of the composition.

Particularly preferred for the invention purposes are gelatines such as agar-agar, carrageenin and similar or pure cellulose.

The two products forming the composition, i.e. gelatine and sodium borate, can be present each in a quantity comprised between 20 - 70% (by weight) of the total; particularly preferred is a composition consisting of 50% sodium borate and 50% gelatine (by weight).

The compositions according to the invention can also obviously be used to remove the oxides in the case of objects wherein the precious metal alloy is combined with resins or ceramics making it possible to obtain products having enhanced brightness.

The preparation of a composition according to the invention is very simple and is performed by mixing the desired quantities of both components in a mixer, preferably equipped with microniser, under vacuum and in a nitrogen current. Very simple is also the use of the compositions according to the invention.

The piece to be treated, obtained by moulding the melted ingots in the appropriated mould, is cooled, polished and cleaned with vapour jet streams.

The composition according to the invention is spread with a brush on the surface of the object and dried, normally at 500°C; after drying a white chalk-like patina forms.

The alloy is thereafter submitted to thermal annealing or homogenised in oven, normally at 950°C, as indicated by the producer of the alloy.

The object is cleaned by ultrasounds and immersion in pickling liquid or hydrofluoric acid 40%, thereafter neutralised in water with bicarbonate and washed with water.

If alloy-ceramic products are desired the alloy is ceramised according to the usual techniques. If alloy-resin objects are desired the above said thermal treatment can be performed in an oven or over the flame.

The composition according to the invention is particularly useful to remove the oxides on metal parts which must be grinded. In the case of products requiring ceramisation, after elimination of the glasure excess the composition is applied to the metallic part and is heated at a temperature largely inferior to the one requested for the ceramic burning, thereafter the same procedure described above is applied (treatment with ultrasounds, pickling, neutralisation and washing). By operating as described it is possible, for example, to completely remove the oxides in the internal part of the ceramised dental cups making the surface particularly bright.

Example

30 g of carrageenin are placed in a mixer under vacuum and in nitrogen current and 30 g of sodium borate are added. The products are mixed up to the formation of an homogenous paste which is collected and stoked in fridge up its use.

Claims

1. Composition consisting of gelatine and sodium borate.

2. Composition according to Claim 1 wherein the gelatine is a gelatine capable of burning completely when heated, without leaving any residue.

3. Composition according to Claim 2 wherein the gelatine is chosen in the group consisting of: agar-agar, carrageenin, pure cellulose.

4. Composition according to Claims 1 - 3 wherein the two compounds are present each in a quantity comprised between 20 - 70% by weight calculated on the total weight of the composition.

5. Composition according to Claim 4 containing 50% of sodium borate and 50% of gelatine (by weight).

6. Process for the preparation of a composition according to Claim 1 wherein the desired quantities of both components are mixed in a mixer, preferably equipped with microniser, under vacuum and nitrogen current

7. Process for removing the oxides from alloys of precious metals or similar using a composition according to Claim 1 - 5.

8. Process according to Claim 7 wherein the alloy contains metals of the VIII and lb groups of the Periodic Table of Elements.

9. Process according to Claim 8 wherein the alloy contains gold, silver, palladium, iridium, platinum, in all the different possible combination.

10. Process according to Claim 6 wherein the objects treated are alloys precious metals/resins or precious metals/ceramics.

11. Use of a composition according to claims 1 - 5 for removing oxides from objects consisting of precious metals alloys, precious metals/resins alloys, precious metals/ceramics alloys.

12. Use according to Claim 10 wherein the objects treated are for odontotechnical use.