RU2076661C1 - Method of production of dentures with two-layer composite coating - Google Patents

Abstract

FIELD: medicine, in particular, prosthodontics for production of dentures. SUBSTANCE: method of production of dentures with a two-layer composite coating consists in ionic cleaning of denture surface before successive application of a two-layer protective coating; the external and internal layers are formed of metal or mix of metals of group 4 of the Periodic System, or of their compounds with employment of heavy inert gas. EFFECT: reduced cost of product, simplified production process and improved quality of coating. 3 cl

Description

 The invention relates to medicine, namely to prosthetic dentistry, and can be used for the manufacture of dentures.

 A known method of cleaning dental metal prostheses before applying protective coatings (1).

 The method allows the formation of multilayer composite coatings, however, the quality of these coatings is insufficient.

 The aim of the invention is to improve the quality, reliability and adhesive strength of the coating.

 This goal is achieved by the fact that after cleaning the prostheses with heavy inert gas ions, a metal layer or a mixture of metals of the 4th group of the Periodic Table is applied, followed by a smooth transition to a wear-resistant compound.

 The effect of the method is achieved due to the fact that cleaning the surface of the prosthesis with heavy inert gas ions allows you to keep the surface clean, and then the metal layer applied, which turns into a wear-resistant compound, can improve the adhesion and strength properties due to the smooth change in the physicomechanical properties of the cross section, reduce porosity of the coating and increase its anti-corrosion properties.

 The proposed method is as follows.

 Installation NNV-66 I1 is provided by a device for working with two types of gases.

 At the first stage, preliminary cleaning, washing and loading of prostheses into the installation is performed.

 Then the surface of the prosthesis is cleaned by bombardment with heavy inert gas ions (pure argon gas).

The inner layer of titanium (or a mixture of titanium / zirconium) is applied at a temperature of prostheses 400 450 ^o With a voltage of 150 220 V, a current of 80 100 A, a gas pressure (argon) in the chamber (1 5) 10 ^-1 Pa with a thickness of at least 0.5 microns.

Then, within 5 minutes, the inert gas is replaced by a reaction gas (gaseous nitrogen of high purity) (3 4) 10 ^-1 Pa and a coating of titanium nitride (or titanium and zirconium nitrides) with a thickness of 3.8 μm is applied.

 Polishing and washing operations are not performed, as the quality of the prosthesis corresponds to the finished product.

 The combination of heavy inert gas ion cleaning with the application of an inner layer of metals of the 4th group of the Periodic Table allows you to refuse to apply an additional inner layer of chromium (or chromium / titanium) and additional heating of the prostheses.

 The method allows to combine low production costs, simplicity and affordability of the process with good coating quality.

Claims (3)

1. A method of manufacturing dentures with a two-layer composite coating, comprising ionically cleaning the surface of the prostheses before sequentially applying a two-layer protective coating, the outer of which is made of metals of group IV of the Periodic table and their compounds, characterized in that the inner layer of the protective coating is made of metals of group IV Periodic table and their compounds, while applying the inner layer is carried out at a temperature of prostheses 400 500 ^o C, voltage 150 220 V, current 80 100 A, gas pressure, for example argon meter, in the chamber 1 5 • 10 ^{- 1} Pa, and then for 5 min replace the inert gas with the reaction gas (nitrogen) and apply the outer layer at a pressure of 3 4 • 10 ^{- 1} Pa.  2. The method according to p. 1, characterized in that a layer of metal or a mixture of metals of group IV of the Periodic table with a thickness of at least 0.5 microns is formed on the surface of the prosthesis.  3. The method according to p. 1, characterized in that the two-layer composite coating is formed with a thickness of 4 to 10 microns.