JPS591683B2 - artificial teeth - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an artificial tooth made of aluminosilicate glass.

Porcelain teeth, which have traditionally been used as a type of artificial tooth, are made by sintering powders mainly composed of feldspar, quartz, and kaolin. However, because these porcelain teeth have low impact resistance, they may be damaged during processing or by the patient. It had the disadvantage that it easily chipped in the mouth.

By molding and firing aluminosilicate glass powder using the same manufacturing method as conventional porcelain teeth, the present invention has the same color tone and transparency as conventional porcelain teeth, and is approximately three times as transparent as conventional porcelain teeth. The purpose of the present invention is to provide an artificial tooth that exhibits impact strength of .

That is, the artificial tooth according to the present invention is made by bonding aluminosilicate glass to powder, and the aluminosilicate glass has a content of 5i0255 to 61% by weight and B2030 to
6%, A120312-18%, Li200-2%, N
a200~2%, K2O0~2%, MgO6~13%,
ZnO4-10%, BaO0-3%, Ca00-3%,
T i 020.2~5%, Ce020.1~3%, F
It is allowed to have a composition of e2030 to 0.2% and 10 to 2%.

The reasons for quantitative limitations regarding each component of the aluminosilicate glass used in the present invention are as follows.

5i02 and Al2O3 are glass-forming oxides for obtaining high strength, low expansion glasses.

5i02 is required to have a content of 55% or more in order to obtain high strength and low expansion, but if it exceeds 61%, the viscosity becomes high and it becomes difficult to dissolve.

12% or more of Al2O3 is required to stabilize the glass, but if it exceeds 18%, it becomes unstable.

B2O3 stabilizes the glass, but if it exceeds 6%, chipping tends to occur.

Li2O1Na2O and Ni20 are effective for lowering the viscosity of the glass, but if it exceeds 2%, the expansion coefficient becomes high.

MgO is a modified oxide that softens glass, and 6%
If it is less, the viscosity of the glass will be high, and if it exceeds 13%, it will become unstable.

ZnO is required in an amount of 4 to 10% in order to make the glass soft and have a low expansion coefficient.

BaO and CaO can also be added up to 3%.

In order to produce a color tone similar to the enamel and dentin of natural teeth, it is essential that CeO2 and TiO2 coexist.

When TiO2 exceeds 5%, transparency disappears.

The appropriate amount of CeO□ is 0.1 to 3% in terms of color density.

Fe2O3 can be added up to 0.2% to control color tone.

F can be added in an amount of up to 2% to lower the viscosity of the glass, and is usually added in the form of AlF3, NaF2, etc.

Examples of the present invention are shown in Table 1.

In Examples 1 to 4, glass having a transition point of 690°C and a yield point of 750°C and a coefficient of thermal expansion of 38xlO'/'c was powdered, and this powder was molded and calcined in the same manner as conventional porcelain teeth.
This artificial tooth was manufactured by vacuum firing from 00°C to 970°C at a heating rate of 50'C/m, and this artificial tooth had impact strength 3.3 times that of commercially available porcelain teeth. .

In addition, the impact strength is 5 x 8 mrn in size and 1 mr in thickness.
A sample L with both sides polished was placed on a rail and an iron ball was dropped to compare the height at which it would break.

The artificial tooth according to the present invention has excellent chemical durability and spalling resistance against rapid heating and cooling, and also has the feature that chipping does not occur compared to ordinary glass, which tends to chip.

Claims (1)

[Claims] 1 By weight, 5iO255-61%, B2030-6%
, A120312-18%, Li200-2%, Na2
O0~2%, K2O0~2%, MgO6~13%, zn
O4~10%, Ba0O~3%, CaO0~3%, Ti
020.2-5%, CeO20.1-3%, Fe2O3
Artificial tooth made of aluminosilicate glass with a composition of 0-0.2% and 10-2%.