SU1512588A1 - Method of producing tooth crown from metal - Google Patents

Abstract

The invention relates to prosthetic dentistry and can be used in the manufacture of dental crowns. The aim of the invention is to improve the fixation of the crown on an untreated or partially treated tooth. The crown is made of a metal that has a shape memory effect, subjecting it to stabilizing annealing in a popped state, followed by deformation at a lower temperature. The temperature of plastic deformation is 40-50 ° C. Temperature recovery form 40 ° C.

Description

(21) 4218519/14

(22) 12/24/86

(46) 05.23.91. Bul N 19 (75) E.F. Dzuba

(53) 612.472 (088.8)

(56) USSR Author's Certificate I 1218517, cl. A 61 C 5/08, 1984.

(54) METHOD OF MANUFACTURING DENTAL CAMERA | P0111Sh FROM METAL WITH THERMOMECHANICAL FORM MEMORY

(57) The invention relates to dentistry. The purpose of the invention is to reuse the crown by providing a reversible shape memory effect. The method consists in using a metal crown with a thermomechanical memory of a mold, which is stamped under temperature exposure and with the use of a dry state.

The invention relates to orthopedic dentistry and can be used in the manufacture of dental crowns and prostheses.

The aim of the invention is to reuse the crown by providing the effect of a reversible shape memory.

The method is as follows.

The margin of the tooth neck is marked, a gypsum column is cut out, according to the dimensions of which a metal stamp and contrytamps are made.

Further, the crown is made of metal with a thermomechanical shape memory with annealing in the under-turned state and cooled from + 40 ° C to and subsequent deformation at a temperature from + 40 ° C to + 50 ° C.

Example. The crown is made of titanium nickelide (nitinol), when germanium is included in the alloy (titanium - 44.0 wt.%, Germanium 0.08-0.10 wt.%, Nickel is the rest). Elongation at room temperature

+17 - LO S. Critical phase transformation temperature. The alloy is melted in a vacuum induction furnace with a graphic crucible. Hot deformation of the alloy (at a temperature of +700 -, and cold - with a degree of deformation up to 20%. Intermediate annealing is carried out at +750 C for 1-2 hours followed by air cooling. Stabilizing annealing is carried out at +420 - 480 ° C for 1.5-2 hours in a non-volatile state in a closed form.

After punching, the crown is collapsed into a cuvette and annealed at a temperature of + 420 ° for 1.5-2 hours, followed by cooling to + 40 ° C - 20 ° C in the core state. When reaching +40 C, the crown is removed from the mold and cooled to a deformation temperature. When the deformation temperature is reached, the crown in the neck part is flared to the size of the equator of the tooth.

At a temperature of +40 - flared in the cervical part of the neck

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Claims (1)

The cups are put on the tooth when heated to body temperature, the crown is compressed in the cervical part, restoring the original dJopMy. To remove the crown from the tooth, the crown is cooled to the temperature of plastic deformation and the crown can be removed from the tooth. After the final treatment, the crowns undergo plastic deformation at a low temperature. Invention Formula A method of manufacturing a dental crown of metal with a thermomechanical bond of the mold, consisting in When stamping a crown under temperature exposure and then cooled to room temperature and expanding the crown neck to the size of the equator of the tooth, characterized in that, in order to reuse the crown by providing a reversible shape memory effect, after the crown is stamped, it is stabilized annealing with cooling in the unfilled state to the temperature of recovery of the form, after which the crown is released from the unfilled state and cooled to the deformation temperature.