CS225302B1 - The dental thermoreversing doublet matter and its preparation - Google Patents

Description

The invention relates to a dental thermoreversible dubble composition based on an aqueous agar hydrocolloid, and to the addition of electrolytes regulating physicochemical properties and preservatives, as well as to a process for its manufacture.

Agar hydrocolloid oaks are known in dental practice · They are used to duplicate working models in the manufacture of metal structures of partial sensing restorations · They are based on the formation of hydrosol from the agar hydrocolloid gel and heating to 70 to 100 ° 0, which upon cooling to 30 to 50 ° C solidifies again in gel · Agar hydrosol must flow well into molds and accurately reproduce the finest details of dental models · After solidification it should have sufficient strength, elasticity and low superheation · Agar hydrool viscosity depends on agar quality, its concentration and temperature ·

The concentration of agar in the hydrolase also undermines the other physical-chemical and mechanical properties of the gel, in particular the liquefaction and solidification temperature, strength, elastic and permanent deformation values »volume stability and gel durability ·

As it is known, petar agar belongs to the group of natural high-molecular substances · It contains substituents capable of electrolytic di80eeaee · The viscosity of aqueous agar salts is therefore also dependent on the type and conoentra of added low-molecular electrolytes such as potassium or sodium chloride, potassium sulfate, barium and strontium or cadmium, etc. · · The addition of these electrolytes also influences the liquefaction and freezing temperatures of the gels} the order of efficiency of their ions is given by the so-called · lyotropic series, in descending order:

- 2225 302 agar gels are treated with boric acid or its soluble salts »for example sodium tetraborate ·

Agar gel is not thermodynamically stable system · It comes to spontaneous transformation, aging · Liquid is squeezed out and gel by Sasem, it is mixed up · Agaric hydro-almonds were sometimes added in small amounts »Evaporating water» usually glycerin or waxy substances · Against molds are agar gels stabilized with common disinfectants »eg thymol» hexachlorophenol or sodium pentaohlorphonolate etc. ·

Agar hydrocolloid tormorovorosible gels and prepared by agarizing the agar lyogol in hot water · Kb in hydrosol and then adding other ingredients »electrolytes» boric acid and disinfectants »in some cases 1 glycerine as a drying agent prevents drying. In this process, a possible glycerin content of about 20% by weight is higher, as the coneentraee effect is to reduce the viscosity of the agar sol and the rospuetnoati agar. thickens, burns and burns and has mechanical properties ·

The above-mentioned drawbacks are eliminated by a dental thermoreversible dubble mass based on an aqueous agar hydrocolloid and by the addition of electrolytes regulating physicochemical properties and preservatives according to the invention, which consists of 3 to 5 masses of agar, 30 to 50% masses And preferably from 40 to 45% by weight of a fatty alcohol, preferably glycerol, othylonglycol or triothylene glycol, or a mixture thereof in any ratio, and from 50 to 56% by weight of water, the ratio of agar to polymorphic alcohol and water being 1 t 10 , and the remainder to 100% by weight consists of electrolytes such as sodium oitronate, potassium or potassium potassium sulfate, boric acid, sodium tetraborate and preservatives such as sodium pentaohlorophenolate *

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The invention also relates to a process for the production of dental thermoreversible oak material characterized by the above. The process consists in the fact that aa agar in an amount of 3 to 5% by weight is aolublized in an aqueous medium and contains 40 to 45% of a monoammonium alcohol, preferably glyeerine, ethyl light glycol or triethylonglycol or a mixture thereof in any ratio. The medium and the ammonium alcohol are 1 to 10, at a temperature of 85 to 100 ° C, preferably 90 to 95 ° C, and electrolytes such as sodium eitronate, potassium sulfate, aluminum-aluminum sulfate are added and cooled to 70 to 80 ° C. , boric acid 81 sodium tetraborate, preservatives such as sodium pentaohlorofolate ·

Surprisingly, in the described arrangement, conoantraol of alcohols can be extracted in an agar gel to 40-45% by weight and favorably improve the properties of the product, which remains transparent and stable over the air, reusable multiple times without deteriorating the lifetime and appearance. The properties of the dubbing material according to the invention have been verified with favorable results both in laboratory conditions and in dental practice.

As it is known, agar belongs to the group of natural linear polyelectrolytes and to polar groups of several different types. These substances have a low affinity for the mixture of phosphate surfactants than for water alone, as the time dependence of the degree of swelling of agar xarogal An aqueous solution of glyoerin and agar xarogal exhibits the best affinity for a solution of 30-50% by weight of glyeerine. Summer of fact is advantageously utilized both in the composition of the new dental thermoreversible dubbing composition and in the process for its production according to the invention. This method is even more advantageous than the already prevalent taohnology in that the solubilization of agar in a hot wine alcohol solution takes considerably less time than before, thus contributing both to the increase in the capacity of the apparatus and to the energy saving.

Further details of the production method according to the invention are given in the exemplary embodiment.

225 302

Example 4 Modified Agar Ternoreversible Gel Composition / in g / x

agar 5 glyoerin / or other wine alcohol / 44 water 50 Sodium oitronate 0.7 Potassium sulphate 0.1 sodium tetraborate 0.1 sodium pentaehlorophenolate 0.1

Manufacturing process"

3> o stainless steel duplicator boiler and add 5 kg of agar xerogel «add 44 kg of glyoerin, or other wine or alcohol to 50 kg of water · At a constant temperature in the boiler, use at 90 to 95 ° C maximum 2! h · After the gel has cooled down to 80 ° 0 and the addition is carried out, aoli is added.

Claims (2)

Mental thermoreversible doublet of haotas based on an aqueous agar hydrocolloid and several alcohols and with the addition of electrolytes, regulate the physico-chemical properties and the preservatives of the substances by this. in assemblies with Al 3 · 5% agar, from 30 to 50% hMjt ¹ * ^^ '40- 45% wt. more than one alcohol * * * glyoerine, ethylene glycol or triethylene glycol may be mixed in any ratio, and 50 to 56% haot · water * seals an agar ratio of 1 to 10% of alcohol and water to 100% haot · electrolytes * eg sodium nitrite * potassium sulphate or aluminum-potassium sulphate * boric acid * sodium tetraborate and preservatives * eg · sodium pontachlorphonolate · 2. A process for the preparation of the thermoreversible doublet mass according to item 1 which is exemplified with agar in a quantity of 3 to 5% by weight and is aubstituted in aqueous medium containing 40 to 45% by weight of alcohol alcohol, glycerine, ethyl glycol or tristyl glycol. Mixtures in any ratio * The ratio of ag.ru to aqueous medium with an alcoholic strength of 1 »10 * at a temperature of 85 to 100 ^w 0 * After electrolytes such as sodium oltronate * potassium sulphate * aluminum sulphate * boric acid B1 sodium borohydride * preservatives such as sodium pontachlorophonate are added after 90 to 95 ⁱⁿ 0 * Na after cooling to 70 to 80 ° 0.