RU2049443C1 - Method for manufacturing dental prosthesis having multilayer composite coating - Google Patents

Abstract

FIELD: medicine; prosthetic dentistry. SUBSTANCE: method involves forming metal coating and coating having metal compounds containing metals of the fourth and sixth group of the Periodic table using heavy noble gas. EFFECT: improved coating quality; enhanced adhesion strength. 4 cl

Description

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

 The closest technical solution is the method of applying multilayer composite coatings "MZP composite YuVAM 11", including cleaning the surface of the prosthesis in accordance with the requirements of vacuum hygiene in washing solutions, cleaning the surface by bombardment with titanium ions and sequential application of layers of chromium / titanium, titanium and titanium nitride as well as polishing and washing the finished dentures.

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

 The aim of the invention is to increase the adhesive strength and quality of the coating, maintaining surface cleanliness and the strength of soldered joints.

 The goal is achieved in that the cleaning of metal dentures, brazed with silver solder, is carried out by bombarding the surface of the prosthesis with heavy inert gas (argon) ions in a glow discharge, and the coating forms from metal layers of groups 6 and 4 of the Periodic Table in an inert gas medium followed by a smooth transition into a wear resistant joint.

 The effect of the method is achieved due to the fact that cleaning the surface of the prosthesis by ion bombardment with a heavy inert gas allows you to keep the surface clean. The formation of a coating in an inert gas medium with its smooth replacement with a reaction one leads to uniform coating over the surface of the prosthesis, a favorable change in the physicomechanical properties along the coating cross section and an increase in adhesive strength.

 In the scientific and technical literature there are no signs similar to those that distinguish the claimed method from the prototype, which indicates the compliance of the claimed method with the criteria of "novelty" and "significant differences".

 The proposed method is as follows.

 At the NNV 6.6 And 1 installation, two titanium cathodes (VT1-0) and one chromium (BX1-0) are installed.

 To work with two types of gases, a mixer with a pressure regulator and a pressure gauge is installed in the circuit between the cylinders with the reducers and the unit.

At the first stage, preliminary cleaning, washing and loading of prostheses into the installation is carried out. Then the chamber is pumped to a vacuum of 1.3 1,3 10 ^-2 Pa and purged with argon (pure and high purity gases are used argon and nitrogen). Purification and heating prostheses argon-ion bombardment in a glow discharge conducted at a pressure of argon ˙10 ^-2 7 1 Pa and a high voltage 1000 V. With stable combustion discharge voltage is increased to 1,500 V. When prostheses temperature approaches the set (450-500 ° ^C) Voltage lowered to uniformly warm the prosthesis.

A coating of chromium (or a mixture of chromium / titanium) is applied in an argon medium (1-5) ˙10 ^-1 Pa at a prosthesis temperature of 400-450 ^о С, a current of 80-100 A, a voltage of 40-70 V with a thickness of 2.6 microns.

 Then the prostheses are heated by bombardment with argon ions in a glow discharge according to the regime indicated above.

A titanium coating is applied in an argon atmosphere of (1-5) ˙10 ^-1 Pa at 400-450 ^о С with a current of 80-100 A and a voltage of 180-200 V for 5 minutes.

Further, for 5 minutes occurs smooth replacement of argon to a mixture of argon / nitrogen and further nitrogen (3-4) ˙ 10 ^-1 Pa voltage of 180-200 V, a current of 80-100 A, a temperature of 400-450 ^C. nitride coated titanium with a thickness of 3 to 6 microns.

 There is no need to perform polishing and washing of prostheses, since the quality of the prostheses corresponds to the finished product.

 This method allows to reduce the process, increase the number of prostheses loaded into the installation for coating, to avoid marriage during production and to obtain stability and color uniformity of prostheses.

Claims (4)

 1. METHOD FOR MANUFACTURE OF DENTAL PROSTHESES WITH MULTILAYER COMPOSITE COATING, including cleaning the surface of prostheses with subsequent application of metal layers of groups 4 and 6 of the Periodic Table, followed by their polishing and washing, characterized in that the prostheses are cleaned before application of the coating by ion bombardment with a stream heavy inert gas in a glow discharge, and the deposition of metal layers of groups 4 and 6 of the Periodic table or their compounds is carried out in a medium of heavy inert gas with smooth m switching to active gas. 2. The method according to claim 1, characterized in that the products are cleaned in a glow discharge in a medium of heavy inert gas at a pressure of 7 · 10 ^{- 2} 1 PA and a voltage of 1000 V and 1500 V, followed by a decrease. 3. The method according to claim 1, characterized in that the deposition of metal layers of groups 4 and 6 of the Periodic Table and their compounds is carried out in a medium of heavy inert gas at a pressure of (1 5) · 10 ^{- 1} Pa. 4. The method according to claim 1, characterized in that the inert gas is replaced by an active gas smoothly by increasing the concentration of active gas at constant pressure in the chamber (1 5) · 10 ^{- 1} Pa.