DE1544923A1 - Process for the production of artificial teeth by the powder-liquid process - Google Patents

Description

FARBENFABRIKEN BAYER AG 1544923

LKVEftKUSEN-ltynwnfc 19 · Oct. 1965

3 i / Rb

Dr. Expl.

Process for the production of artificial teeth according to the "Powder-Liquid Process".

Artificial teeth, preferably made of polymethacrylic acid methyl ester, are made in suitable shapes either after a thermo * plastic process or according to the "powder-liquid process" in such a way that a mostly perifold finely divided plastic powder with a small amount of a polymerizable monomeric liquid to one Dough swollen and then in hot molds mostly with the help of free radical catalysts, such as. B. benzoyl peroxide or Lauroyl peroxide is allowed to polymerize.

The "powder-liquid process" has a number of advantages over the purely thermoplastic process have that it is preferred more and more. For example, it is much easier to use the dough to color the different colors Layers of the tooth neck, the tooth body and the tooth cutting edge to build on each other properly.

TJm the color of the artificial teeth in natural as well as in artificial light that of the natural as much as possible

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to adjust, one sets the plastic powder outside the usual inorganic pigments also contain fluorescent substances. In this way of working, however (unlike the Pigments) difficult to adjust the effectiveness of the fluorescent substance sufficiently constant and reproducible. The grinding process when the fluorescent substance is mixed into the plastic powder can already be effective decrease if they are used, as is the case with numerous inorganic fluorescent substances depends on the crystal size. Are in the powder-liquid process of the monomeric liquid If polymerization catalysts are added, they can, under certain circumstances, reduce the effectiveness of the fluorescent substance completely annihilate.

It has now been found that the sensitive fluorescent substances largely withdraw from the change in the manufacturing process for artificial teeth and good products with constant fluorescence intensity, if you put the fluorescent substances in a part of the finely divided plastic embedded in powder.

This is done expediently in such a way that it is known per se Way a finely divided bead polymer, preferably made of polymethacrylic acid methyl ester, in the presence of the fluorescent substance it with the help of non-peroxide catalysts,

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ζ. B. Azodinitriles produced and this the plastic powder is added in dosed form in the manufacture of artificial teeth. The selection of the predominantly organic In addition to physiological aspects, the fluorescent substance is primarily based on its optical behavior. To obtain the required spectral distribution of the fluorescent lighting set, you can not only two or more at the same time in the preparation of the bead polymer Use fluorescent substances from the start instead of leaving two-way so that bead polymers with different Fluorescent substances are mixed together.

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example

A solution of 0.01 part by weight of a fluorescent substance the formula

nC ₄ H _g 0

in 98 parts by weight of methyl methacrylate and 2 parts by weight of ethyl acrylate, the 0.5 parts by weight of azoisobutyric acid dinitrile contains, is in a solution of 10 parts by weight of poly-N-vinylpyrrolidone, K value according to H. Fikentscher, Cellulosechemie 13 (19632) 60:90, in 600 parts by weight of water with vigorous stirring in a nitrogen atmosphere heated to boiling under reflux. The polymerization is essentially complete when the reflux in the condenser after stops about 3/4 hours. The mixture is then heated and cooled for a further hour, and the finely divided bead polymer Washed out carefully with deionized water and dried at 50 to 60 ° C in a drying cabinet. It contains the Fluorescent substance distributed homogeneously within the beads.

3 parts by weight of a mixture consisting of 10 parts of the described bead polymer containing fluorescent substance and 90 parts of a customary bead polymer made from methyl methacrylate exists, are with the usual inorganic color pigments, such as. B. Titanium Dioxide, and Cadmium Yellow, as well as mixed with 0.1% dibenzoyl peroxide and mixed with 1

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bath

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Part of the volume of monomeric methyl methacrylate is added. This mixture is left to stand covered for 15 minutes until a homogeneous dough is obtained. The dough is then placed in a two-part tooth mold, preferably made of a stainless steel alloy, the mold is closed and pressed under a heatable and coolable press with a pressure of 60 kg / cm 2 for 3 minutes. ^{The press is then heated to 70 °} C. within 3 minutes by means of pressurized steam or electric heating elements and left at this temperature for a further 3 minutes. This is followed by further ^{heating to a temperature of 120 °} C., which is reached in a further 2 minutes and maintained for 6 minutes. During the second heating phase, the pressing pressure is increased from 60 kg / sq cm to 120 kg / sq cm. After completion of the polymerization, ie after about 17 minutes after loading .the shape in the press, the heating is stopped and cooled with water flowing from the press 8 ⁰ C for 6 minutes. The pressure is released and the tooth form is removed. After opening the mold, homogeneous fully polymerized artificial teeth are obtained which, in addition to high abrasion resistance, are characterized by a fluorescence effect corresponding to the natural tooth when viewed in ultraviolet light.

Instead of said fluorescent substance aeien z. B. the the following, which can also be used in a mixture:

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'C-CH = CH

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Claims (1)

ί 544923 _ _τ _ Le A 9684 Claim Process for the production of artificial teeth according to the "powder-liquid process ¹¹ , characterized in that, in a manner known per se, a bead polymer of a polymerizable monomeric compound, preferably methyl methacrylate, in the presence of a metered amount of one or more fluorescent substances and a non-peroxide catalyst, preferably an azodinitrile, and this is added in dosed form to the plastic powder during the manufacture of the artificial teeth. 9098 A 1/1620 ^BAD