UA133668U - COMPOSITION OF ENVIRONMENTALLY SAFE SURFACE SUBSTANCES FOR WATER TREATMENT OF TEXTILE PRODUCTS - Google Patents

Abstract

Composition for water purification and equipment of cotton, polyester and mixed textile products, based on surfactants, contains a mixture of environmentally safe surfactants, with the following ratio of components (wt.%): Omero-16 33 LAS-80 67.

Description

The useful model belongs to the technology of water cleaning and equipping of cotton, polyester and mixed textile products.

Known compositions (1, 2) for processing products in an aqueous environment, which contain mixtures of surface-active substances (surfactants) of various types, enzymes, bleaches, stabilizers, crystalline substances. The disadvantage of the compositions is the high content of surfactants up to 80-95, the multi-component system, the complexity of preparation, storage and transportation of the means, the possible yellowing of white clothes when the textile material interacts with bleaches. In addition, it is necessary to regulate the size and shape of crystalline substances that contain compositions, which complicates the conditions for removing dirt from products, causes the formation of complex complex deposits of dirt on the surface of materials, worsens the mechanical properties of the fabric, and reduces the service life of products.

The above disadvantages can be overcome by using binary compositions of environmentally safe surfactants for water cleaning of textile products.

The basis of a useful model is the task of creating such compositions, the use of which in the conditions of water cleaning and equipment will increase the efficiency of removing contaminants of various chemical nature from textile materials while simultaneously preserving the operational properties of cotton, polyester and mixed products.

The task is solved by the fact that the composition for water cleaning and furnishing of cotton, polyester and mixed textile products, based on surfactants, according to a useful model, contains a mixture of environmentally safe surfactants, with the following ratio of components (wt. U):

Omero-16 Z3

GA5-80 67.

The aqueous solution of the composition is used as a means for water cleaning and finishing of textile products at concentrations from 1 to 2 g/l, depending on the range of products.

According to the useful model, processing of the textile material with a composition of environmentally safe surfactants Omero-16/A5-80 with a ratio of components of 33/67 (wt. 95) during water cleaning or equipment is provided, which ensures high quality of dirt removal and preserves the physical and mechanical properties of the products during operation.

Technical ecologically safe surfactants of domestic and foreign production were used to prepare the composition.

Zo Omero-16 - С7Нзз--ССО-(СНаСН2О)-Н, СаНи-ССО-(СНаСН2О)х6-Но are oxyethylated methyl esters of higher fatty acids of rapeseed oil Н-С17-С21 with the degree of oxyethylation т-16 ( TU U24.6-33781676-016:2008, LLC "Barva", Ivano-Frankivsk, Ukraine) It is widely used in the formulations of powder and liquid detergents.

GA5-80 - a mixture of sodium salts of alkylbenzenesulfonic acids with alkyl substituents H-Cto-

Si4 (TU 07510508. 135-98, China). Common in the production of detergents, auto cosmetics, organic synthesis processes.

The composition is prepared by mechanical mixing of the estimated number of starting components.

Example 1

The main property of compositions for water cleaning of products is washing ability, which ensures a high degree of removal of impurities from textile materials, brightness of color, softness, absence of stains on processed products.

Washing of contaminated samples was carried out in aqueous solutions of surfactant mixtures Omero-16/I A5-80.

Conditions for washing contaminated fabrics were chosen in accordance with technological regulations and technical and economic indicators of the water cleaning process |4th. The module of the bath and the duration of treatment for each type of textile samples are shown in Table 1

Table 1

Conditions for water cleaning of contaminated samples

Bath module, Duration o

Sample ML treatment, min Temperature, "C | Concentration, g/l 20, 35, 50

Fabric that contains 80 95 cotton and 40 2,5,8 20, 35, 50 1,2, 3 20 95 polyester

Fabric that contains 65 95 cotton and 40 2,5,8 20, 35, 50 1,2, 3 35 9o polyester

Polyester fabric 20, 35, 50

After washing, the samples were dried at room temperature, then kept in a drying cabinet at a temperature of 60 °C for 30 minutes.

According to the selected criteria: concentration, time and temperature, the optimal mode of treatment with compositions of environmentally safe surfactants was established, in which the maximum possible removal of contaminants was achieved.

The detergency of the developed composition of environmentally safe surfactants Omero-16/A5-80 at working concentrations of 1 g/l, 2 g/l, 3 g/l was determined by the Kubelka-Munk equation (5). The results of the research are shown in Table 2.

Table 2

Detergent composition of ecologically safe surfactants

Concentration of the composition

Type of fabric

Fabric that contains 80 95 cotton and

Fabric that contains 65 95 cotton and

Polyester fabric

The antiresorption ability of surfactant compositions characterizes the stabilizing effect of detergents.

The results of the study of the antiresorption ability of the composition of environmentally safe surfactants

Omero-16/A5-80, determined by the photometric method, is given in Table 3.

Table C

Antiresorption ability of compositions of environmentally safe surfactants

Concentration of the composition

Type of fabric (Tkanyinazabovniya.//////777777777111111118611 11111116 ІМ

Fabric that contains 80 95 cotton and

Fabric that contains 65 95 cotton and

Polyester fabric

With the help of statistical processing of the obtained data, the optimal parameters of the water cleaning process, which is characterized by the maximum removal of impurities from the textile material, and, accordingly, high quality washing of products, are determined. Thus, the highest washing quality is achieved at a concentration of 3 g/l, treatment duration of 5 min., at a temperature of 35 "С - for cotton fabric; at a concentration of 1 g/l, treatment duration of 5 min., at a temperature

35 C - for mixed fabrics; at a concentration of 2 g/l, duration of processing 8 min., at a temperature of 35 "C - for polyester fabric.

However, taking into account the recommendations of technologists I5| and trends in the practical use of detergent compositions, when cleaning products with water, it is advisable to use a working concentration of solutions from 1 g/l to 2 g/l, which achieves high indicators of detergent from 85.5 95 to 89.1 95 and anti-resorption action from 8.6 95 up to 1995, as well as savings in the use of South Africa.

Example 2

Samples of cotton, polyester and mixed fabrics weighing from 1.0 to 1.2 g were treated with a composition of environmentally safe surfactants for 5 minutes. with a liquid modulus of 40, squeezed out, dried at a temperature of 30 C and kept in conditioned conditions. After processing, the breaking load and breaking elongation of tissues were determined according to the standard methods of DSTU IBO 13938-1:2007, DSTU IZO 13938-2:2007.

Data on changes in the mechanical properties of cotton, polyester and mixed fabrics after processing in the composition of environmentally safe surfactants are presented in Table 4.

Table 4

Breaking load of cotton, polyester and mixed fabrics

Fabric that Fabric that contains 80 95 contains 65 95 Fabric with

Processing Cotton fabric cotton and 20 95 | cotton and 35 95 polyester rook polyester polyester

Breaking load Рр., H 1500 | 1570 | 71800 / 1700 1400 | 1380 | 1755 / 1645

Composition 630 355 950 5ZO i5BO | 1600 | 1880 1855

Skom 2 1 g/l

Composition 620 340 920 BgO 1Bgo | 1630 | 850. 1820

Skom 2 2 g/l

Composition 610 360 5BO 1-5ZO | 1660 | 1880 1880

Skom - With g/l

When the strength of materials increases, an increase in elongation is observed. The breaking elongation is 95 for cotton, polyester and mixed fabrics are given in table 5.

Table 5

Tear elongation of cotton, polyester and mixed fabrics

What kind of fabric What kind of fabric

Cotton fabric contains 80 95 contains 65 95 Fabric from

Processing of cotton and 20 95 | cotton and 35 95 polyester rook polyester polyester

There is a breaking elongation, 9o

Composition 14.5 24 22 33 37 42 44.5 46.5

Skom - 1 g/l

Composition 14 22 22 for 36 41 44 45

Skom - 2 g/l

Composition 14 21.5 23 33 36.5 and 43.5 48

Skom - With g/l

The results of the study of breaking load and breaking elongation confirm the possibility of using a mixture of environmentally safe surfactants for water cleaning of textile products, without a destructive effect on the mechanical properties of fabrics.

Example 3.

The ability of a textile material to restore its original state after bending is assessed by the fabric's permanence. The criterion for the permanence of textile materials is the permanence coefficient Kn, 95, which is determined by the ratio of the recovery angle a of the fabric sample under investigation to the angle of its full bend, which corresponds to 1807. The permanence coefficients for cotton and polyester materials determined according to DSTU 4143-2002 / GOST 31101-2003 are given in table 6.

Table 6

Coefficient of permanence Kn, 95 fabrics

What kind of fabric What kind of fabric

Cotton fabric contains 80 95 contains 65 95 Fabric from

Processing of cotton and 20 95 | cotton and 35 95 polyester polyester polyester 27.04 38.18 | 32.06 | 58.17 | 56.76 | 77.81 76.37 24.81 22.18 | 34.07 | 28.2 | 59.19 55.91 78.89 76.48

Composition Sam 235 2278 | 3065 2700 | BBYE | 52 | 7648 7444

Composition 23.96 | 2105 | 29.94 | 26.90 | 5Bi2 | 5236 | 74.50 | 73.75

Skom - 2 g/l

Composition 20.93 | 2089 | 28.80 | 2698 | 5324 | Bla? | 7204 7241

Skom - With g/l

The stiffness of textile materials characterizes the resistance of fibers to change in shape during bending deformation. The stiffness of the fabric depends on the fibrous composition of the material, thickness, density and type of equipment. Rigidity also affects the processes of equipment and operation of textile materials. Depending on the stiffness index, such properties of textile products as wear resistance, durability, drape, capillarity and strength will change, which significantly affects the appearance of the products.

The stiffness of cotton, polyester and mixed fabrics was determined by the cantilever method according to

DSTU 4143-2002 / GOST 31101-2003. Table 7 presents the value of the stiffness of EI, μN.sme for the investigated fabric samples with different types of treatment with a composition of environmentally safe

PAR OMero-16/! A5-80.

Table 7

EI hardness, μN:cm? fabrics

What kind of fabric What kind of fabric

Cotton fabric contains 80 95 contains 65 95 Fabric from

Processing of cotton and 20 95 | cotton and 35 95 polyester polyester polyester

Output sample 337 / 88 / 280 | 86 | 220 | 98 | 156 | 140

Water | 400 | 92 | 300 | 90 | 210 | 100 | 170 | 166

Composition 330 250 82 210 128124

Skom 2 1 g/l

Composition 320 76 240 Vi 200 88 120 118

Skom 2 2 g/l

Composition 315 74 250 195 85 114 | 104

Skom - With g/l

The results of the research indicate that the environmentally safe composition has been developed

Surfactant Omero-16/ AB-80 can be used during the washing and furnishing of textile products, which contributes to the care of products, increases the efficiency of removing dirt from the surface of fabrics, reduces the contamination of products, improves consumer properties, and increases the service life of products.

Thus, the composition for water cleaning and furnishing of cotton, polyester and mixed textile products has the following advantages: 1. High washing ability. 2. Providing textile materials with dirt-repellent properties. 3. The possibility of use as a means for conditioning and equipping textile products.

Sources of information: 1. US patent 0520110061174А. Sotrasi Yashcid Iashpagu ayeiyeegdepi sotrozyop. Ueap-Ro

Voshidie, Egedegik Mapaepregoape, Mugiat Voshiiisne, datev5 SNapevz Tneorpie VKodeg VitsKei-51i.

Eat ashtepi. 3.17.2011. 2. US patent E52623840T3 Ritsii ayeiegdepi sotrozyiop Iashpagu. Te Rgosiei 5 Satbie

Sotrapu 12.07.2017.

Z. Oda RagazKa, Teizuapa Rak, Otuio SPpeguopuShK. Ove oi esoiodisaPu yiepau zipase asiime ziB5iapsev ip She yiyipivpipud oi iyehshShe5 Ippomaiiop5 ip Sioipipu Oeezidp, MaiegiaI5, Tesppoiiodu apa

Meazitetepi Meiyod": Mopodgari, ed. Wu Imopa Eguagusn, Staipa Vaikoulak, is the Mage of Ramiouma. -

I od, 2015. - R. 218-225. 4. Bryukhova I.G. Product processing technology at service enterprises: training manual / I.H. Bryukhova, L.S. Stepanova, G.I. Tarasova - Lviv: Novy Svit, 2008. - 230 p. 5. Paraska O.A. Analysis of methods for determining the detergency of surface-active substances /

O.A. Paraska, S.A. Karvan, O.I. Kulakov // Bulletin of the Kyiv National University of Technologies and Design. - 2006. - Volume 2. - P. 83-87.

Claims (1)

USEFUL MODEL FORMULA Composition for water cleaning and furnishing of cotton, polyester and mixed textile products, based on surfactants, which is characterized by the fact that it contains a mixture of environmentally safe surfactants, with the following ratio of components (wt. U): Omero-16 Z3 GA5-80 67.