UA120336C2 - METHOD OF OBTAINING TEXTILE MATERIALS WITH ANTIMICROBIAL PROPERTIES - Google Patents

Abstract

The invention relates to the textile industry, namely to a method of treating textile materials with biocidal substances, in particular to provide antimicrobial properties and can be applied to fabrics for special and household purposes. The method involves obtaining cellulose-containing textile materials with antimicrobial properties, the essence of which is to treat tissues by impregnation, prepared with an alcoholic aqueous solution of ethylthiosulfanyl (ETC) with a minimum effective concentration of 0.1-0.5% for 2-3 minutes to full wet growth with subsequent squeezing on the plus and heat treatment at a temperature of 70-75 ° C for 5-7 min to a residual moisture of 6-8%. The alcohol-aqueous solution is prepared. at their ratio, wt. %: ethyl alcohol (50-60) and water (40-50). The proposed method provides high and long-term fungal resistance and biostability of cellulose-containing fabrics and is environmentally friendly. Allows to keep hygienic indicators and essentially to improve physical and mechanical indicators, in particular tear characteristics and resistance of coloring of fabrics to long action of solar irradiation by 30-35% increase.

Description

The proposed method ensures high and long-term fungal resistance and biostability of cellulose-containing fabrics and is environmentally safe. Allows you to maintain hygienic indicators and significantly improve physical and mechanical indicators, in particular, the tearing characteristics and resistance of fabric color to long-term exposure to solar radiation are increased by 30-35 95.

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Fig. 1

The invention belongs to the textile industry, namely to the method of processing textile materials with biocidal substances, in particular to provide antimicrobial properties, and can be applied to fabrics for special and household purposes.

There is a known method of obtaining silver-containing cellulosic materials, which consists in impregnating the fabric at room temperature with an aqueous solution containing AoMO and glycerin followed by heating until darkening and drying. (Russian Patent No. 2256675, IPC СО8И 1/02, СО8К 3/28, сСо8в 1/00, 20.07.05. Method of obtaining silver-containing cellulosic materials.

The disadvantage of the method is the short-term bactericidal activity after moisture-heat treatment and the need to maintain the temperature regime for a long time, which can not only lead to tissue destruction, but also increases the cost.

A well-known method of antimicrobial treatment of cotton textiles is treatment with a solution of a preparation based on alkyldimethylbenzylammonium chloride, which is carried out at 60...707

S. (Russian Patent No. 2114229. Method of antimycotic finishing of textile products containing cotton fiber. MPKb BOEM 13/463, BOR 3/62, BOR 5/06. Publ. 1998.06.271.

The disadvantage of this method is the use of a chlorine-containing preparation, which is not environmentally safe.

Also known is the invention under the USSR patent 1340257, BObM 14/04, 1984, the essence of which consists in the preliminary introduction of poly-1,2-dimethyl-5 vinyleridinium methyl sulfate on a cellulose-containing fabric with the subsequent application of an antimicrobial substance - the disodium salt of hexachlorophene, followed by heat treatment at from 102 up to 115 "C in a water vapor environment for 0.5-1.5 minutes and washing.

The disadvantage of this method is the complexity and duration of the process of processing textile materials, as well as the toxicity of the compound - the disodium salt of hexachlorophene.

Methods of impregnation of textile materials with biocidal substances are also known: the introduction of a chemical agent at the last stage of production - the stage of dyeing | see 2She A. Arriisaiop oi papoiesppoiodu ip apiitistobia! yiipivpipud oi Bioteaisa! YekhShevz /A. AiPe, SG. Aiteeida, GT. Atogit, M.

Sateiiigo, M.BR. Ev5ieme5, S.). 5iima, A.R. Bosch (2014). Maieg. Kev5. Ex. M.P. Bereznenko, V.I. Vlasenko, V.I. Vislenko, N.O. Kurlova, L.V.

Zo Mikhienkova Development of a new assortment of synthetic threads modified with nanopreparations //

Bulletin of the Khmelnytskyi National University. Technical sciences. - 2011. Mo. 3. P. 104-108| and bombarding the tissue with charged particles carrying the antibacterial agent

IGhoryashchenko S.L. Analysis of equipment for applying polymer coating on textile materials // Bulletin of Khmelnytskyi National University. - 2015. - Mo 2 (223). - b. 37-40.

The disadvantage of the described methods is that the application of these drugs contributes to the deterioration of consumer properties, in particular, it reduces breaking load, resistance to washing, etc.).

The closest to the claimed invention is the method of obtaining a bactericidal material with silver and copper nanoparticles | see Patent of Ukraine Mo 102532 Method of obtaining a bactericidal material based on a nanosized composite of silver and copper, publ. 10.11.2015, which consists in the preparation of aqueous solutions of silver nitrate with copper sulfate in concentrations of 1.7-102-1.7.1027" wt. and 2.5-104-2.5.1027" mass. Accordingly, the mass fraction of silver nitrate to copper sulfate is 1:1.47, providing a 1:1 molar ratio of silver ions to copper ions in the solution. Then soak the fabric for 15-30 minutes. and carry out heat treatment by contact with a surface heated to 205-225"C until a yellow or yellow-brown color appears.

This method was chosen by the prototype. The prototype and the claimed invention have the following common features: - tissue seepage; - soaking; - push-ups; - heat treatment.

The disadvantage of the described method is the fact that during heat treatment of textile materials, regardless of fiber composition, at a temperature of 200 C and above, the physico-mechanical properties of textile materials deteriorate, which can lead to a partial loss of strength upon tearing, destruction of the fiber microstructure. Also, the appearance of yellow or yellow-brown color on the surface of textile material affects the aesthetic properties of fabrics, in particular, the color characteristics change. In addition, the use of such a high temperature is energy-consuming.

The invention is based on the task of creating an environmentally safe method of processing textile materials with high antimicrobial properties in a simple and faster way, which will not only preserve the quality characteristics of the fabric, but also significantly increase their wear resistance, in particular.

The task was solved by the method of obtaining cellulose-containing textile materials with antimicrobial properties, the essence of which is to treat fabrics by impregnating them with a prepared alcohol-water solution (60 96/40 90) of ethyl biocide - ethyl thiosulfanilate (ETS) with a minimum effective concentration of 0.1-0, 5 95 for 2-3 min. to full wet growth with subsequent wringing on a plus and heat treatment at a temperature of 70-75 "C for 5-7 minutes to a residual moisture of 6-8 95.

Biocidal preparation ethylthiosulfanilate (ETS) - synthesized at the Department of Technology of Biologically Active Compounds, Pharmacy and Biotechnology of the National University "Lviv Polytechnic". It is a white crystalline powder, patented as a biocide for the protection of petroleum products, materials and equipment (Patent of Ukraine Mo 77586 Application of 5-ethyl-4-aminobenzenethiosulfonate as a biocide for the protection of petroleum products, materials and equipment. 15.12.2006. Byul. Mo 121), there is also medicinal form As a biocide for the protection of textile materials, it was applied and tested by the applicant for the first time. ETO is a low-toxic compound (I O5o-2000 mg/kg) and exhibits a wide spectrum of antimicrobial activity, in particular, high antifungal activity against pathogenic fungi of various genera and moderate antibacterial activity against gram-positive and gram-negative bacteria.

Examples of the implementation of the method.

Example 1

Cellulosic fabrics totaling 4 samples with different amounts of fiber mixtures were impregnated with a prepared alcohol-water solution (60 95/40 90) of ethyl thiosulfanilate (ETS) with a minimum effective concentration of 0.5 9o for 2 minutes. Then the samples were squeezed on a press and dried at a temperature of 75 "С for 7 minutes, to a residual moisture of 8 95. The results of qualitative changes in indicators under the conditions of example 1 are shown in Table 1

Example 2-4 - carried out similarly to example 1, but under different conditions, temperature regime and concentration, in particular:

From Example 2: concentration of the solution - 0.1 95; temperature and time of heat treatment - 55 "C for two minutes.

Example 3: concentration of the solution - 0.1 95; temperature and time of heat treatment - 65 "C for 7 min.

Example 4: concentration of the solution - 0.5 95; temperature and time of heat treatment - 85 "C for 7 min.

The results of qualitative changes in indicators under the conditions of examples 2-4 are shown in the table. 2-4

The best result was achieved when processing textile materials according to example 1, where fabrics not only maintain the level of quality in terms of physico-mechanical and hygienic indicators, but also an improvement in complex indicators is observed.

The antimicrobial properties of the treated fabrics were confirmed during tests with bacteria and aggressive fungi in all concentrations, starting with the minimally effective 0.05 95, but at 0.1-0.595, the duration of action can be extended. Table 5 shows the results of the treatment of textile materials with ETS at a concentration of 0.5 95, which achieves not only long-term protection of fabrics from microorganisms, but also significantly increases the indicators of wear resistance.

The results of the test for fungal resistance and resistance to bacteria of the treated fabrics are presented in Table 5. Cups with experimental and control samples were incubated in a thermostat for 24-48 hours. at a temperature of 37 "C for the germination of bacteria and 48-72 hours at a temperature of 28-30 C - for fungi. The tests lasted 28 days, during which no further development of bacteria and fungi was observed. The duration of the treatment is also confirmed by the data obtained after 3- washing (Table 6).

Comparative analysis with the prototype allows us to conclude that the claimed method of processing textile materials with ETS biocide is ecological, has high fungal resistance and allows to significantly increase hygienic and physical-mechanical indicators.

Treatment of fabrics with the ETS preparation also allows you to preserve the tearing characteristics and stability of fabric color to long-term exposure to sunlight (300 hours) (table 7, Fig. 1 - Dependence of the light fastness of colors on the duration of solar irradiation of textile material made of 100 95 cotton; Fig. 2 - Dependence of light fastness of colors on the duration of solar irradiation of a textile material with a fiber composition of 50 95 cotton, 50 95 polyester; Fig. C - Dependence of color fastness on the duration of solar irradiation of a textile material with a fiber composition of 20 95 cotton, 80 95 polyester).

Thus, the developed method makes it possible to solve the problem of the lack of textile materials with antimicrobial treatment on the market and to introduce a new variety of assortment - overalls with high antimicrobial properties and wear resistance, including for dockers who work in conditions favorable for the appearance and growth of pathogenic microorganisms.

Table 1

The results of physical, mechanical and hygienic indicators according to example 1

Nome Fibrous Number |Hygrosko-| Water Type of processing |load, kgf| cycles oven, | resistance, sample composition, 90 abrasion | 95 Pa 6014 2590 o z z z 100 5 cotton god 2660 ? 5096 bav., | Control | 90.6 | 50 | 11890 2800 50 95 polyester 11890 2850

From 35 95 bav., 8416 | 68 | 2500 65 95 polyester 8421. | 68 | 2540 4 20 96 bav., 4017 | bd | 2900 80 95 polyester 4022 2900

Table 2

Results of physical, mechanical and hygienic indicators according to example 2

Number Fibrous Type Number |Hygro-) Water load, kgf| cycles )/ furnace, | resistivity, sample composition, 95 abrasion treatment | 95 Pa 6014 2590 o z z z 100 5 cotton bot 2605 ? 5096 bav., | Control | 90.6 | 501 | 11890 2800 50 95 polyester 11890 2800

From 35 95 bav., v416 | 68 | 2500 65 95 polyester 8417 | 68 | 2490 4 20 95 cotton, 4017 2900 80 95 polyester 4018 2910

Table C

The results of physical, mechanical and hygienic indicators according to the example of Z

Nome Fibrous Number |Hygrosko-| Water Type of processing | load, kgf cycles oven, | resistance, sample composition, 90 abrasion | 95 Pa 1 10095 cotton boot 25 ? 6017 | 86 | 2620? 5О096bav., | Control | 90.6 | 501 | 711890 2800 5095 polyester / ETS | 906 | 49.9 | 11890 2820

From 35 95 bav., v416 | 68 | 2500 65 95 polyester v418 | 68 | 2518 4 20 95 cotton, 4017 2900 80 95 polyester 4020 | 60 | 2900

Table 4

Results of physical, mechanical and hygienic indicators according to example 4

Nome fibrous Number |Hygrosko-| Water-

R o Processing type |load, kgf)| cycles | hotness, | resistance, sample composition, 90 abrasion | 95 Pa 11 10095 cotton here 2590 ? 6000 | 80 | 2600? 5096 bav., | Control | 90.6 / 501 | 11890 2800 95 polyester 18v0o | 6.9 | 2815 in 35 96 bav., 8416 | 6.8 | 2500 65 95 polyester 8410 2515 4 20 95 cotton, 4017 2900 80 95 polyester 4010 | 6.0 | 2880

Table 5

Antimicrobial activity of cellulose-containing fabrics treated with ETS

Number Fibrous Type of microorganism, MM podeg yivpii5 Isheit atsgeiv 1 1ooersavovna | Kontfol | 01010 1010

EC | 400 | 690 | 49 | 40 | 347? BO96bav, | Kontol | 0 / 0 | 0 | 0 | 0 5096 polyester | ETS | 270 | 650 | 390 | 0 | from 26

From ZBO6bav, / Konttol. 0 | | 0 | 0 | 407 | 0 | 28.7" includes fabric sample dimensions (20mm)

Table 6

Comparison of the antimicrobial activity of cellulose-containing fabrics treated with ETS after 3 times automatic washing

Number Fibrous View Avreotmv! Hoe. IMusorasyutit Euspepiopia Ziarpuosossnv sample| composition, 95 (|processing i ' 10095 |Contol| 0/0 1010| o | o | 0 | 01 o | o cotton | ETS /40,0139,069,0168,4| 49,0 | 48,3 4, 0 3.7 | 34.7 | ZA 5096bav. | Controls| 0 0 1010| 0 |

Z5o6bav, | Kontgol| 0 | 0 |010| 0 | 0 0/0 o | o "| polefru | ETO |90|29ovtveto| in 390) o) o oto | zva 2095bav. | Kontgol| 0 | 0 |010| 0 | 0 0/0 o | o 4 80 to code no 10001017 yu| o | | in. x includes the dimensions of the fabric sample (20 mm)

Table 7

Change in breaking load of tissues after insolation (on basis)

Nome You Reduction of breaking load after s azka Fibrous composition, 90 about solar irradiation, 905 y y o, s with Н 100 5 cotton ? 5O 95 bav., 5095 polyether | ET | 08 | 934 | 125

From 35 95 bav., about Kontvol | 49 | 66 | 173 6595 polyether | ET | 41 | 68 | 07 4 20 95 cotton, 80 95 polyester

Claims (2)

FORMULA OF THE INVENTION 1. The method of obtaining textile materials with antimicrobial properties, which involves their treatment with a biocidal preparation followed by wringing and heat treatment, which is characterized by the fact that the textile material is treated with a 0.1-0.595 alcohol-water solution of ethyl thiosulfanilate until complete impregnation, and the heat treatment is carried out at 70-75 7C to residual moisture 6-8 95. 2. The method according to claim 1, which differs in that the processing of textile materials is carried out at room temperature. C. The method according to claim 1, which differs in that the alcohol-water solution is prepared, with their ratio, wt. 9o: ethyl alcohol (50-60) and water (40-50). sq. with o. at. Zh. oo U. shi and NO. my Zoo Hvnashlst will be blessed with radiation, pol. «be khvgroa -e TS Fig. 1 KU veka spo pod KOKO sx sah ХХ ex not sx OK s still OA Duration of solar eclipse, h eCommery in: KK Fig. 2 schi tv pyu hyu Zno Permanence of solar emanation; Goal. ze Kovani "a KTS Fig. WITH