SU1528477A1 - Method of producing metallo-plastic dentures and metallo-plastic denture - Google Patents

Abstract

The invention relates to medicine, namely to orthopedic dentistry, and can be used for the manufacture of fixed prostheses on a metal base with a plastic lining. The aim of the invention is to increase the strength and improve the hygienic properties and appearance of the denture. The prosthesis contains a metal base of titanium nickelide and a plastic coating. The method includes the preparation of abutment teeth and the removal of working and auxiliary impressions, according to which two models are made. According to the models, outer and inner electrodes are made of copper and brass, one of which corresponds to the external form of the prosthesis (with crowns), and the other to the internal form of the prosthesis (with teeth processed under the crowns and taking into account the gap between the prosthesis and gum). Using electrodes by the method of electroerosive processing, the metal base of the prosthesis is made of porous titanium nickelide, etched until the pores are opened, and then plastic is applied using a polymerization method. 1 hp f-ly.

Description

(21) 4200797 / 28-14

(22) 02.25.87

(46) 12/15/89. Bul No. 46

(71) Kemerovo State Medical Institute

(72) M. 3. Mergazizov, Yu.N. Bezverkhoe, V.E. Günther, V.I. Itin and L.A. Monasevich

(53) 615.472 (088.8)

(56) US patent number 4492577, cl. A61 C 8/00 1981.

(54) METHOD FOR MANUFACTURING METAL-PLASTIC DENTAL PROTESTS AND METAL-PLASTIC DENTAL PROTESIS

(57) The invention relates to medicine, namely to prosthetic dentistry, and can be used to make non-removable metal-based prostheses with plastic linings. The aim of the invention is to increase the strength

and improving the hygienic properties and appearance of the denture. The prosthesis contains a metal base of titanium nickelide and a plastic coating. The method includes the preparation of abutment teeth and the removal of working and auxiliary impressions, according to which two models are made. According to the models, outer and inner electrodes are made of copper and brass, one of which corresponds to the external form of the prosthesis (with crowns), and the other implants the form of the prosthesis (with teeth processed under the crowns and taking into account the gap between the prosthesis and the gingiva). With the use of electroscopic electrodes, the metal base of the prosthesis is made of porous titanium nickelide by means of electroerosion treatment, etched it until the pores are open, and the polyurea method is applied by polymerase method and plastic is applied. one . n f-ly.

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The invention relates to medicine, namely to dentistry.

The purpose of the invention is to increase the strength and improve the hygienic properties and appearance of the denture.

According to the method of making a prosthesis, including the preparation of teeth for dentures, the manufacture of a metal base according to the models of prepared teeth and the subsequent coating of a metal base with plastic mass, the manufacture of a metal base of the prosthesis is carried out by pre-manufacturing two copper or brass electrodes in the form of a punch and a matrix with a gap between their walls, made in the form of the model of the prepared teeth, the formation of a metal base by the successive anti-coaxial introduction of these electrodes in and tabic of porous titanium nickelide using the electroerosion method and etching the preparative metal base to open the pores.

In a metal-plastic mass prosthesis containing a metal base and a plastic coating, a porous nick is used as the metal-gus base. 1 id of titanium with an open porosity of 40 70% and an average pore size of 100 1000 microns.

The use of nickelide titanium allows the fabrication of a material by self-propagating high-temperature synthesis, which provides a simple and reliable production of a porous alloy with given porosity parameters. Through the porosity of titanium kelide in the range of 40-70% with an average pore size of 100-100 .mkm provides a strong adhesion of plastic with a metal base and a significant hardening of the entire prosthesis.

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A decrease in porosity below 40% and an average pore size below 100 µm leads to a decrease in the adhesion strength of the coating to the metal substrate as a result of a decrease in the contact surface and a decrease in the penetration of plastic into the pores of the substrate.

An increase in porosity above 70% and an average pore size above 1000 μm leads to a substantial decrease in the strength of the substrate and, therefore, the prosthesis as a whole.

The use of the electroerosion method in the manufacture of a metal prosthesis makes it possible to ensure sufficient

the high accuracy of the formation of the base (due to the selection of the metal according to the shape of the electrodes, which coincides with the shape of the model of the nrotez) and minimal deformations of the material, spongy and therefore easily damaged with other processing methods, for example mechanical. The deformations caused by the EDM method are reliably eliminated by etching, which, if necessary, can correct the porosity parameters at the final stage of manufacturing the metal base.

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Claims (2)

1. A method of manufacturing metal-plastic dental prostheses, including the manufacture of a metal base according to the models of teeth and the subsequent coating of the metal base with plastic, characterized in that, in order to increase the strength and improve the hygienic properties and appearance, two metal electrodes are made in the form of a punch and matrices, made with a gap between their walls and the shape of the model of the prepared teeth, then form the structure of the metal base by successively coaxially introducing electrodes in c tabic of porous titanium nickelide by the electroerosion method with subsequent etching of the obtained metal base until the pores are opened. 2. A metal-plastic denture containing a metal base and a plastic coating, characterized in that, in order to increase strength and improve hygienic properties and appearance, it uses porous titanium nickelide with an open porosity of 40-70% and average m pore size in the range of 100-1000 m.m.