CS227635B1 - Additive to reduce the viscosity of nonionic cellulose ethers - Google Patents

Abstract

The invention relates to the use of mefinium chloride as an additive for reducing the viscosity of liquids containing nylon cellulose ethers. The invention can be used in various fields of direct application, especially in the paper and pharmaceutical industries for stabilization and thickening, and in polymer chemistry for the preparation of dispersants.

Description

(54) Viscosity reducing agent for nonionic cellulose ethers

The invention relates to the use of MnCl4 as an additive for reducing the viscosity of liquids containing naionic cellulose ethers.

The invention can be used in the dew areas of the industry, in particular in paper and pharmaceutical industry for stabilization and thickening, and in the polymerization of dispersants.

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The present invention relates to an available additive designed to reduce the viscosity of fluids containing nonionic cellulose ethers, wherein the conditions are as follows. its applications allow to obtain fluids with the desired effect on the economy.

At present, as shown in the literature, various methods for reducing the viscosity of nonionic cellulose ethers are known. The decrease in dynamic viscosity can generally be achieved within a few hours by the use of an additive of the appropriate type and concentration that acts at a certain pH and temperature of the reaction medium. The use of hydrogen peroxide / V may be mentioned at random. Brit. U.S. Pat. No. 953,944], which causes a decrease in the viscosity of the cellulose derivatives within a few minutes to hours. The decrease in viscosity reflects the degradation reaction provided by the oxidizing agent.

Of the widespread acidic cleavage of cellulose derivatives, mention should be made of the use of hydrogen chloride / US patent, «

no. A change in viscosity is also achieved by the use of alginic acid and its salts, respectively.

No. 480,949], using benzoquinone (U.S. Pat.

No. 183,765], Fe @ ^{+ +} and Fe @ ⁺ chelating agent (U.S. Pat. 3,240,737 /. Also described are physicochemical methods in which the desired viscosity-reducing effect is achieved by radiation / NSR patent, U.S. Pat. 1,928,045 and 1,928,046].

Among the shortcomings of these methods are the increased risk to the working environment and the non-linear dependence of the viscosity drop over several tens of minutes or hours. The controllability and the difficult reproducibility of the viscosity reduction effect to the desired value also remain problematic.

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None of these drawbacks is overridden by the present invention, which is used as an additive to adjust the viscosity of fluids containing nonionic cellulose ethers of ammonium chloride.

The advantage of using cupric chloride as an additive to adjust the viscosity of the present invention is that the additive is both technically readily available and allows accurate viscosity adjustment. The desired effect is already achieved in the first minutes after contacting the cellulose ether. Furthermore, it should be noted that the solutions obtained retain their original color and viscosity, even for some time even at a longer thermal load.

The cuprous chloride may be applied in crystalline form and / or in the form of a sufficiently stable aqueous solution. The effective amount of this salt is usually within the range of 0.001 to 3% by weight, and only exceptionally is a larger amount to be added. In adjusting the viscosity, it is advantageous to treat with chloride in an environment having a pH range of 4 to 12 and a temperature of 15 to 104 ° C.

For the preparation of aqueous solutions, suspensions, gels and the like, containing nonionic cellulose ethers, in addition to distilled and demineralized water, spring water may also be used, since the presence of other additives does not reduce the effect of cuprous chloride. Although water is preferably used as the solvent for the cellulose ethers, it can perform this function without loss of effect. as well as other inorganic solvents such as dilute solutions of acids, bases or salts thereof. In certain cases, an organic solvent or a mixture of solvents may also be used.

It should also be noted that cuprous chloride can be applied in conjunction with other known ingredients intended for the same objectives, where in many cases a higher effect by synergistic action is also obtained. Thus, for example, cuprous chloride interacts with hydrogen peroxide.

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The following examples show a typical example of viscosity reduction, but do not exhaust all possibilities of the present use of the ammonium chloride according to the invention.

Example 1 An aqueous solution of hydroxypropyl methylcellulose containing 1.71 to 1.81 methyl groups and 0.12 to 0.15 hydroxypropyl groups per anhydroglucose unit is used. The viscosity of the 2% aqueous solution at 20 ° C is 50. 10 " ^J kg.m" .The gel temperature is 65 ° C.

From this solution, 1000 g of an aqueous solution containing 0.06 wt. % hydroxypropylmethylcellulose and 0.1 wt. of ammonium chloride. After ten minutes of -4 -1 tempering, the viscosity drops from 5.78. 10 kg.m.s to 5.25. 10 ^{4 4} kg.m ~ ¹ .s' ^.

Viscosities are determined at a temperature of 55 ° C in accordance with ČSN 257910 and ASTM D 2363-72 on an Ubbelohde viscometer.

Example 2

The procedure is as in Example 1, except that 1000 g of an aqueous solution containing 0.06% by weight are prepared. % hydroxypropylmethylcellulose and 1 wt. of ammonium chloride. After ten minutes of tempering, the viscosity drops from 5.78. 10 ^"4 kg.m ^ ^_ ^ .s to 5.15. 10 ⁴ kg.m ”\ s“ \

The invention is intended to be used in particular as a stabilizer and thickener of certain properties in the paper and pharmaceutical industries, in the manufacture of paints, adhesives, extinguishing agents, explosives, anti-caking agents. The possibility of its use in the modification of the properties of dispersants in suspension polymerization is significant. By this change it is possible to control the process of controlling the granulometry of the suspension polymers.

Claims (1)

Object of the invention 227 635 Use of methane chloride as an additive to adjust the viscosity of liquids enriching nonionic cellulose ethers.