RU2676500C1 - Composition for rolling wool-containing textile materials - Google Patents

Abstract

FIELD: textile and paper.SUBSTANCE: invention relates to textile and light industry, namely to the composition used for the rolls of wool-containing textile materials, which can be used for a different range of materials containing wool fiber, namely, for planking rovings or rolling pure wool fabrics, as well as wool blend fabrics containing synthetic or natural fibers. Composition for the rolling of wool-containing textile materials contains an alkaline agent ammonium hydroxide, an auxiliary component and water, according to the invention, as an auxiliary component, it contains silver nitrate in combination with sodium dithionite with the following content of components, g/l: ammonium hydroxide (25 %) – 2–8; silver nitrate – 0.0001–0.0003; sodium dithionite – 1–3; water – up to 1 l.EFFECT: technical result of the invention is to increase the effectiveness of protecting wool-containing textile materials microbiological damage and imparting antimicrobial properties to them.1 cl, 1 tbl

Description

The invention relates to textile and light industry, in particular to a composition used for felting wool-containing textile materials, which can be used for a different range of materials containing wool fiber, namely for stitching rovings or felts of pure-woolen fabrics, as well as woolen fabrics containing synthetic or natural fibers.

By felling is meant a technological process in which a cloth is created, characterized by bumpiness and the presence of surface covering. In the process of felling, the dimensions of the fabric along the length and width of the piece decrease and its thickness increases. At the same time, the heat-insulating properties, strength, density and softness of the fabric increase. Under the conditions of felling, a massive movement of the wool fibers relative to each other occurs, as a result of which they converge, become entangled and interlock, which leads to tissue shrinkage over the area and an increase in the weight of a unit of its volume [I. Technology for finishing woolen fabrics. M., "Light Industry", 1972, 364 S.].

Roll wool-containing textile materials is carried out in acidic, neutral or alkaline environments. The choice of method and the duration of the roll depends on the type of product, hardware design, quality and type of effect [Sadov F.I. Chemical technology of fibrous materials / F.I. Sadov, M.V. Korchagin, A.I. Matetskiy // “Light Industry”, 1968, 784 p.].

Felling in a neutral environment is very weak and is rarely carried out for thin woolen and semi-woolen fabrics with sensitive coloration.

Acid roll is used exclusively for coarse cloth [Shikanova I.A. Technology for finishing woolen fabrics. M., "Light Industry", 1972, 364 S.].

A known composition containing formic acid to pH 4-5 [Praise A. Textile excipients (reference guide): TRANS. with him. at 2 p.m. / A. Praise, V. Anger, K. Praise. - M.: Legprombytizdat, 1991. Part 1. - 432 pp.] Or a composition containing 0.2-0.5% sulfuric acid [Peters R.Kh. Textile chemistry (Purification of textile materials from pollution). Per. from English G.E. Krichevsky, M .: "Light industry", 1973, 212 p.].

The most widely used are alkaline compounds, including soap, soda or ammonia with synthetic products [Praise A. Textile excipients (reference manual): Per. with him. at 2 p.m. / A. Praise, V. Anger, K. Praise. - M: Legprombytizdat, 1991. Part 1. - 432 p.].

Typically, the working felling solution contains 0.5-1 g / l of soda or another alkaline agent (NH ₄ OH, NaHCO ₃ , etc.) and 15-20 g / l of auxiliary agent, which is most often a surfactant, but may be and other textile auxiliary substances (TVB) [Shikanova I.A. Technology for finishing woolen fabrics. M., "Light Industry", 1972, 364 S.].

Known composition for rolls containing (g / l): soda ash - 2-5 g / l; biodegradable surfactants (Syntanol DS-10, Sintamide 5, Prevocell W, etc.) - 8-15 g / l [Finishing and dyeing of woolen fabrics. Reference book / Under the general editorship of V.L. Molokova. - M .: Legprombytizdat, 1985, 264 p.].

The disadvantages of these feller compositions is that they do not solve the problem of protecting wool fiber from microbiological damage, which is a serious problem and causes significant damage during storage and transportation of wool materials [Novoradovskaya TS, Sadova SF Chemistry and chemical technology of wool. M: Legprombytizdat, 1986, 200 pp.]. Moreover, it does not impart antimicrobial properties to wool fiber.

A known composition for felling wool-containing textile materials containing acid, for example sulfuric or formic, or acetic in an amount of 1-3 g / l, dehydrated silica gel, which is a waste product of the production of aluminum fluoride from the filtration stage - 3-20 g / l and water up to 1 liter, which protects the wool from microbiological damage [Patent 2465382 Russian Federation, IPC D06C 17/00. The composition for felling wool-containing textile materials / Vladimirtseva E.L., Zhelnova A.S., Sharnina L.V., Blinicheva I.B., Vilboy M.A .; Applicant and patent holder Federal State Budgetary Educational Institution of Higher Professional Education "Ivanovo State University of Chemical Technology". - No. 20111131398/12, declared 07/26/2011, publ. 10/27/2012, Bull. No. 30]. However, it does not impart antimicrobial properties to the fiber; moreover, in this case, the roll occurs in an acidic environment, which significantly limits the range of materials processed by it.

Closest to the invention is a composition containing, as an alkaline agent, ammonium hydroxide, and as an auxiliary substance, alkyl benzosulfonate and ethoxylated fatty alcohol [Praise A. Textile auxiliary substances (reference manual): Per. with him. at 2 p.m. / A. Praise, V. Anger, K. Praise. - M .: Legprombytizdat, 1991. Part 1. - 432 pp.] However, this composition does not protect the wool fiber from microbiological damage during operation and cannot give the products antimicrobial properties.

The technical result of the invention is to increase the effectiveness of protecting wool-containing textile materials from microbiological damage and giving them antimicrobial properties.

The specified result is achieved by the composition for rolling wool-containing textile materials containing an alkaline agent, ammonium hydroxide, an auxiliary component and water, characterized in that as an auxiliary component it contains silver nitrate in combination with sodium dithionite in the following components, g / l:

Ammonium hydroxide (25%) 2-8 Silver nitrate 0.0001-0.0003 Sodium dithionite 1-3 Water Up to 1 liter

The achievement of the claimed technical result is determined by the use of silver nitrate as an auxiliary component in combination with sodium dithionite, which, together with well-known features, provide the following significant advantages:

- reducing the loss of strength of the wool material during operation: from microbiological damage (action of putrefactive bacteria) - from 65-80 to 3-5%;

- giving the wool material antimicrobial properties.

In the process of rolling wool material in an alkaline environment created by ammonium hydroxide, silver is reduced from an aqueous solution of silver nitrate with sodium dithionite. The specific structure of wool having an outer scaly layer, the presence of pores up to 12 microns [Novoradovskaya TS, Sadova SF Chemistry and chemical technology of wool. M .: Legprombytizdat, 1986, 200 pp.] Determine the possibility of encrusting in them silver nanoparticles with its strong fixation on the surface of the wool fiber, providing the claimed advantages.

The following substances were used to carry out the invention:

Ammonium hydroxide (NH4OH) GOST 3760-79

Silver nitrate (AgNO3) GOST 1277-75

Sodium dithionite GOST 246-76

Water (technical) (GOST 17.1.1.04-80).

The composition is prepared in the traditional way. For this purpose, ammonium hydroxide, silver nitrate and sodium dithionite are introduced into water with stirring in the required amounts.

Example 1

G / l are sequentially introduced into water (0.5 l): ammonium hydroxide - 2, silver nitrate - 0.0001 and sodium dithionite - 1. The composition is mixed and adjusted with water to 1 l.

Example 2

G / l are successively introduced into water (0.5 l): ammonium hydroxide - 5, silver nitrate - 0.0002 and sodium dithionite - 2. The composition is mixed and adjusted with water to 1 l.

Example 3

G / l are successively introduced into water (0.5 l): ammonium hydroxide - 8, silver nitrate - 0.0003 and sodium dithionite - 3. The composition is mixed and adjusted to 1 l with water.

Felling of textile materials is carried out according to traditional technology on standard equipment - warping machines such as SV-500Sh, SV-300Sh, SVF-500-Sh, etc. The fabric or fiber is impregnated with felling solution on special washing machines that provide more uniform application of the composition, or directly on cloth machine, after which it is subjected to repeated influences of the organs of the machine, sitting down sequentially in length and width. The duration of the roll depends on the type of fabric [Shikanova I.A. Technology for finishing woolen fabrics. M., "Light Industry", 1972, 364 S.].

To obtain the correct comparative data, the claimed compounds and prototype compounds processed the same materials using the same technology.

Quality indicators were determined equally for the prototype, and for the proposed compositions.

Decay resistance was determined after a soil test, during which the samples were buried in the ground (a mixture of sand, cow manure, garden soil in a ratio of 1: 1: 1 with a pH of 6.0 ... 7.5) to a depth of 10 cm. A burying pad was made with a slight slope so that during irrigation the water does not stay on the samples [L. Luvshis Methods of testing fiber, yarn and fabric in the wool industry / L.A. Luvshis, E.I. Birenbaum - M.: Light Industry, 1967. - 218 p.].

Damage to the wool material was controlled by its solubility in 0.1 N alkali solution (NaOH) at a temperature of 65 ° C. The measure of wool damage was determined as the difference in the mass of the sample before and after processing, expressed as a percentage of the mass of the original dry sample. In this case, the mass loss during processing in alkali is greater, the more the sample is damaged during felling. A sample of the starting material was used as a reference sample. [Korchagin M.V. Laboratory workshop on the chemical technology of fibrous materials. Textbook for university students of the textile industry / M.V. Korchagin. - M.: "Light Industry", 1976, 352 p.].

The biocidal effect was evaluated by the disk diffusion method: a bacterial suspension of a certain density was applied to the surface of the agar in a Petri dish, discs made from pile wool were placed, incubated under conditions favorable to each particular microorganism. The diameters of growth inhibition zones around the disk are measured in millimeters (taking into account the diameter of the disk) [Biological damage and methods for assessing the biostability of materials. Digest of articles. - M.: Science, Academy of Sciences of the USSR, Scientific Council on Biodeterioration, 1988. - 140 p.]. Evaluate the result by comparing the diameter of the zones of growth inhibition of the tested culture. Staphilococcusaureus and Candidaalbicans were used as bacterial cultures.

Qualitative indicators of textile materials processed by the composition of the prototype and the claimed composition are shown in the table.

From the data presented in the table it can be seen that after felling with the claimed composition, the loss of strength of the wool material from microbiological damage under the influence of putrefactive bacteria is reduced to 3-5%. In addition, the materials that passed the roll with the claimed composition acquire antimicrobial properties, as evidenced by the results of the disk diffusion method: the suppression of the activity of bacteria Staphilococcusaureus was 5-8 mm, and Candidaalbicans - 11-17 mm, which allows such materials to be considered bactericidal.

Claims (2)

Composition for rolling wool-containing textile materials containing an alkaline agent, ammonium hydroxide, an auxiliary component and water, characterized in that as an auxiliary component it contains silver nitrate in combination with sodium dithionite in the following components, g / l: Ammonium hydroxide (25%) 2-8 Silver nitrate 0.0001-0.0003 Sodium dithionite 1-3 Water Up to 1 liter