RU2791792C1 - Method for obtaining a non-gelling powdered sodium carboxymethyl cellulose product from vegetable raw materials, the obtained product and its application - Google Patents

Abstract

FIELD: paintwork materials.

SUBSTANCE: manufacturing of a binder for paints and varnishes. The method for producing a non-gelling powdered sodium carboxymethyl cellulose product includes processing plant materials with sodium salt of monochloroacetic acid in a flow-through vibro-centrifugal mill. Then an aqueous solution of sodium hydroxide is added, the resulting mixture is stirred and mechanochemical processing is carried out in a flow-through vibro-centrifugal mill with an acceleration of grinding bodies of 30 m/s². Buckwheat husk is used as vegetable raw material. A non-gelling powdered sodium carboxymethyl cellulose product and its use are also provided.

EFFECT: increasing the fluidity of a concentrated solution of sodium carboxymethyl cellulose product.

3 cl, 6 dwg

Description

The invention relates to the production of cellulose derivatives, specifically to the production of a non-gelling powdered sodium carboxymethyl cellulose product from vegetable raw materials (PNKPRS), without separating cellulose from other components of vegetable raw materials, as well as to the use of the resulting product in concentrated aqueous paints and varnishes.

Known "Method of obtaining a powdered gel-forming product from vegetable raw materials", namely, a method for obtaining PNKPRS, including processing of the initial vegetable raw material with sodium salt of monochloroacetic acid in a continuous flow vibrocentrifugal mill, adding an aqueous solution of sodium hydroxide and re-mixing, characterized in that mechanochemical processing in vibrocentrifugal mill continuous action is carried out with the acceleration of grinding media 30 m/s ² at a temperature not exceeding 50°C for 2-5 min, and the components are taken in the following molar ratio: lignocellulose : sodium salt of monochloroacetic acid : sodium hydroxide : water = 1 : 2 : (5.8-7.5) : (7-11). Preferably, raw materials with a moisture content of not more than 16 wt. %. Preferably, a 40% sodium hydroxide solution is used. Specifically, plant raw materials are not named, however, it is noted that the initial plant raw material is the biomass of herbaceous plants and can serve as almost any lignocellulosic waste from agricultural production. In this way, PNKPRS is obtained without separating cellulose from other components of plant materials. This technical solution was chosen as a prototype (1. Pat. RF No. 2720192, class C08B 11/12, published on April 27, 2020).

The disadvantage of this technical solution, from the point of view of the present invention, is the production of gel-forming PNKPRS.

Gel-forming NKPRS, from the point of view of the present invention, have a disadvantage - the impossibility of obtaining fluid solutions of high concentrations (several tens of percent, up to fifty percent), since they form gels at a much lower concentration. So, commercial sodium-carboxymethylcellulose (sodium-CMC) brand "Kamtsel-500" already at a concentration of 12 wt. % is a gel.

The technical problem solved by the claimed technical solution is to obtain non-gelling PNKPRS, moreover, by the same method, without separating cellulose from other components of plant materials. Also, the technical problem solved by the claimed technical solution is the use of the specified product in concentrated aqueous paints and varnishes.

Non-gelling PNKPRS are capable of producing fluid solutions of high concentrations (several tens of percent, up to fifty percent) and in this respect are similar, for example, to fifty percent solutions of dextrin and gum arabic used in the production of watercolors and gouache (2. Gusev V.N. Watercolor paints. - M .: Gizmestprom, 1947. - 94 p.).

The specified technical problem was not solved in the prototype due to the fact that not all possible (potentially very wide) list of plant materials was tested.

This technical problem is solved by using buckwheat husk as a vegetable raw material - a waste of agricultural production, while maintaining the method of processing vegetable raw materials specified in the prototype. This solution to this technical problem is not obvious to specialists and is impossible without appropriate research, since according to the prototype, the opposite result should be expected: obtaining a gel-forming product from almost any plant material. It is also not obvious to those skilled in the art without carrying out appropriate studies that no modification of the method was required. In addition, the use of the resulting product as a binder in concentrated water-based paints and varnishes (LKM) is not obvious to specialists and required appropriate research. Firstly, it is known that water-based paints are prepared on the basis of sodium-CMC, ready for use, but not concentrated (3. Nikitin A. M. Artistic paints and materials. Handbook. - M .: Infra-Engineering, 2016. - C .90–91). This is due to the above formation of sodium-CMC gels at a relatively low concentration. At the same time, it is obvious that concentrated paints are more profitable to store and transport, since they take up less space compared to ready-to-use paints. Secondly, a new binder and paintwork materials based on it must meet a number of special requirements, including easy grinding in a paint grinder, good pouring (spreadability), not foaming during application, normal adhesion, not significant grinding, not having an unpleasant the shade of the color of the dried coating film due to the binder's own color.

The achieved technical result of the proposed technical solution is to obtain non-gelling PNKPRS from buckwheat husks - agricultural waste, capable of producing fluid solutions of high concentrations (several tens of percent, up to fifty percent; at a higher concentration, the solutions become excessively viscous and cause technological difficulties in the future application), capable, in particular, of serving as a binder for concentrated aqueous coatings.

The socially beneficial effect of using the invention lies in the use in water coatings of the product obtained as a result of the utilization of buckwheat husks - a waste of agricultural production, as well as in improving the environmental situation, since water coatings do not emit organic solvents into the atmosphere when dried.

An additional positive effect achieved by the invention is the possibility of using the product as an adhesive, which leads to the saving of valuable vegetable raw materials used to obtain conventional commercial adhesives (for example, sodium-CMC is produced from cotton cellulose, which is not grown in Russia, but dextrin is a valuable food product - starch).

The implementation of the claimed invention is shown in the examples.

Example 1. Obtaining the target product

Buckwheat husk with a moisture content of not more than 16 wt. % is mixed with the sodium salt of monochloroacetic acid and processed in a continuous flow vibrocentrifugal mill of the TsEM type (IKhTTM SB RAS, Novosibirsk), then an aqueous solution of sodium hydroxide is added and mixed, after which mechanochemical processing is carried out in the same mill. Processing in the mill is carried out at the acceleration of the grinding media 30 m/s ² . The residence time in the processing zone is 2 minutes, the temperature in the processing zone is not higher than 50°C. The components are taken in the following molar ratio: sodium salt of monochloroacetic acid: sodium hydroxide: water = 1:2:5.8:7. Sodium hydroxide is used as a solution with a concentration of 40%. The resulting wet product is dried for 15-20 minutes at 100-110°C. The resulting target product is determined by organoleptic properties and adhesive ability. Also, the resulting target product is identified by infrared spectroscopy, for which the product sample is washed from sodium hydroxide and sodium salt of monochloroacetic acid with an acidified ethanol solution to a neutral medium and a negative reaction to chloride ions.

Example 2. Obtaining the target product

Buckwheat husk with a moisture content of not more than 16 wt. % is mixed with the sodium salt of monochloroacetic acid and processed in a continuous flow vibrocentrifugal mill of the TsEM type (IKhTTM SB RAS, Novosibirsk), then an aqueous solution of sodium hydroxide is added and mixed, after which mechanochemical processing is carried out in the same mill. Processing in the mill is carried out at the acceleration of the grinding media 30 m/s ² . The residence time in the processing zone is 5 minutes, the temperature in the processing zone is not higher than 50°C. The components are taken in the following molar ratio: sodium salt of monochloroacetic acid: sodium hydroxide: water = 1:2:7.5:11. Sodium hydroxide is used as a solution with a concentration of 40%. The resulting wet product is dried for 15-20 minutes at 100-110°C. The resulting target product is determined by organoleptic properties and adhesive ability. Also, the resulting target product is identified by infrared spectroscopy, for which the product sample is washed from sodium hydroxide and sodium salt of monochloroacetic acid with an acidified ethanol solution to a neutral medium and a negative reaction to chloride ions.

Example 3. Obtaining aqueous solutions of the target product

From the target product obtained in examples 1 and 2, prepare aqueous solutions with a concentration of from 1 to 50 wt. %. With increasing concentration, the viscosity of solutions increases; no gel is formed in the specified concentration range, the solutions remain fluid. The color of the solutions is coffee.

Example 4. Preparation of concentrated water-based paints

From the forty-fifty percent aqueous solutions of the target product obtained in example 3, concentrated aqueous paints are prepared. Aqueous solutions of the target product are centrifuged and filtered on a suction filter, after which they are mixed in a mixer with pigments to a pasty consistency. Pigments are used: pigment titanium dioxide, technical carbon, red iron oxide pigment, yellow iron oxide pigment, red iron oxide, ocher. The pastes are ground in a paint grinder and packaged. The resulting concentrated water-based paints can be used as school-design watercolors and gouache, as well as interior paints after dilution to a working consistency. Concentrated aqueous paints meet the requirements for them: they are easily rubbed, have good flow, do not foam when applied, have normal adhesion, do not give significant grinding, do not have an unpleasant shade of the color of the dried coatings film due to the color of the target product.

Example 5 Preparation of Concentrated Aqueous Primers

From the forty-fifty percent aqueous solutions of the target product obtained in example 3, concentrated aqueous primers (pigmented and non-pigmented) are prepared analogously to example 4. Filler pigments are used for the pigmented primer: chalk, calcite. Primers are used after dilution. A non-pigmented primer, if it is not applied with subsequent layers of paintwork materials, is a varnish. Primers meet the requirements for them.

Example 6. Use of aqueous solutions of the target product as an adhesive

Aqueous solutions of the target product, obtained in example 3, stick together paper, cardboard, fabric. The strength of bonding corresponds to the strength of bonding with sodium-CMC solutions of the brand "Kamtsel-500".

Claims (3)

1. A method for producing a non-gelling powdered sodium carboxymethyl cellulose product from vegetable raw materials, including processing the original plant raw material with sodium salt of monochloroacetic acid in a continuous vibrocentrifugal flow mill, adding an aqueous solution of sodium hydroxide and repeated mixing, mechanochemical processing in a continuous vibrocentrifugal mill, which is carried out at acceleration of grinding media 30 m/s ² at a temperature not exceeding 50°C for 2-5 min, and the components are taken in the following molar ratio: lignocellulose: sodium salt of monochloroacetic acid: sodium hydroxide: water = 1:2: (5.8 -7.5): (7-11), and it is preferable to use the feedstock with a moisture content of not more than 16 wt.%, and a sodium hydroxide solution with a concentration of 40%, characterized in that buckwheat husk is used as a vegetable raw material. 2. Non-gelling powdered sodium carboxymethyl cellulose product from vegetable raw materials, obtained by the method according to p. 1. 3. The use of non-gelling powdered sodium carboxymethyl cellulose product from vegetable raw materials according to claim 2 in concentrated aqueous paints and varnishes.