RU2154820C1 - Technique to evaluate quality of fabric - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: technique to evaluate quality of fabric includes determination of linear dimensions and surface density, number of fibers per 10.0 cm, breaking load, peeling, resistance to creasing, moving apart, shedding, abrasion, hygroscopicity, air permeability, stability of coloration, variation of sizes after wet treatment. Index of residual fouling (З_res%) presenting ratio of fouling in shirt-dress fabrics remaining after washing both bleached and colored light tones to total number of deposited fouling is found in addition by formula

, where X_st, X_f and X_syn are values of coefficient of reflection in dark blue region of spectrum in wave length range between 400-457 nm correspondingly for starting fabric, for fabric fouled artificially by aqueous suspension prepared on base of soot and oil and for fabric washed with synthetic detergent in home washing machine, Y_st, Y_f and Y_syn are values of coefficient of reflection in green region of spectrum in wave length range between 520-540 nm correspondingly for starting fabric, for fabric fouled artificially and for washed fabric, Z_st, Z_f and Z_syn are values of coefficient of reflection in red region of spectrum in wave length range between 620-640 nm correspondingly for starting fabric, fabric fouled artificially and for washed fabric. Value of index of residual fouling should meet condition З_res ≤ 48%. EFFECT: enhanced authenticity and objectivity of evaluation of quality of fabrics in process of their wear. 3 tbl

Description

The invention relates to textile materials science and is intended to assess the quality of finished shirts and dresses in terms of its residual contamination as one of the consumer properties and can also be used for standardization in scientific research, periodic and certification tests. The present method is suitable for both bleached and colored light tones of shirt and dress fabrics, mainly plain weave with a surface density of up to 190 g / m ² , worked out of their cotton yarn, yarn from a mixture of chemical and cotton fibers, yarn from a mixture of chemical fibers and with one of the finishes.

 One of the main requirements for fabrics is to increase their operational reliability, i.e. the ability to maintain their basic characteristics within specified limits during operation. Often the resource characteristic of tissues is a measure of strength, which is used as a criterion for their durability.

 However, the main disadvantage of the fabrics of the above assortment is a short service life, which is expressed, first of all, in the change in the appearance of the fabric during socks, which occurs as a result of their light pollution and poor abrasion, which characterizes the reliability of the fabrics. The manifestation of these properties during the operation of the products leads not so much to a decrease in strength as to a deterioration in aesthetic and hygienic indicators. The fabric acquires a dull or gray shade, the intensity and brightness of the color, hygroscopicity, air permeability, dirt adhered to the fiber adversely affect the human skin. This leads to a deterioration in the initial quality of the fabric and a decrease in the wear time of the products despite the still quite good physical and mechanical properties.

 The system "fabric - pollution - washing solution" is being investigated by scientists from different fields of science. They create various types of synthetic products for cleaning textiles of any assortment and control their washing ability, an indicator of which is regulated, for example, GOST R 51108-97 (a copy of the fragments is attached) and should be at least 52%, they experience various types of stain-forming compounds (pollution) and specific ways to remove them. However, the issue of normalizing the resistance of fabrics to the effects of pollution and washing remains difficult to solve, since as a result of numerous studies it has been shown that for each assortment of fabrics a large number of factors affect their ability to become dirty and washed.

 Closest to the claimed method is a method for assessing the quality of fabric produced in accordance with GOST 11518-88 "Fabrics from chemical threads and blended yarn" (copy attached). The existing method involves testing the fabric according to the following indicators: linear dimensions and surface density, number of threads per 10 cm, breaking load, pilling, crushing resistance, resistance to extensibility, tearing, abrasion resistance, hygroscopicity, breathability, color fastness, dimensional stability after wet processing and whiteness, which is determined by the reflection coefficient of the surface of only bleached tissue in the blue region of the spectrum with a light filter with a wavelength of 457 nm, taking into account the necessary deformations of the presence of the optical brightener, which narrows the field of using an existing method.

 The listed indicators with sufficient reliability give an idea of the initial properties of shirts and dresses and carry out their task, however, indicators of the mentioned properties, determined individually on the devices, do not give the characteristics of the fabric during operation. At the same time, there is no indicator among this list by which it is possible to assess the quality of these tissues after exposure to grease and washing, as well as to determine the level of safety for the life and health of the population. Mandatory requirements for the quality of tissues, ensuring its safety for the life and health of the population, are determined by indicators of hygroscopicity and breathability, which, however, do not evaluate the change in tissue properties when worn, as they are determined only on the source tissues.

The technical result of the proposed method is to increase the reliability and objectivity of quality assessment during operation of both bleached and colored light tones of cotton and blended shirts and weaves of plain weave with a surface density of up to 190 g / m ² with one of the types of final finishing due to the introduction of additional an indicator that determines the ability of these tissues to become dirty and washed while maintaining normalized physical, mechanical and hygienic displays teley quality; the ability to predict the operational reliability of shirts and dressing fabrics and the life of products made from them by the numerical value of an additionally introduced indicator of residual contamination; approximation of test conditions for contamination and washing to operational effects on the fabric.

где X_иск, X_з и X_ст - значение коэффициента в синей области в диапазоне длин волн 400 - 457 нм соответственно для исходной ткани, ткани, искусственно загрязненной водной суспензией, приготовленной на основе сажи и масла, и ткани, постиранной синтетическим моющим средством в бытовой стиральной машине;
Y_исх, Y_з и Y_ст - значение коэффициента отражения в зеленой области спектра в диапазоне длин волн 520 - 540 нм соответственно для исходной ткани, искусственно загрязненной, и ткани постиранной;
Z_исх, Z_з и Z_ст - значение коэффициента отражения в красной области спектра в диапазоне длин волн 620 - 640 нм соответственно для исходной ткани, искусственно загрязненной, и ткани постиранной; причем значение показателя остаточной загрязненности должно удовлетворять условию 30≤48%.The problem is achieved in that in the proposed method for assessing the quality of the fabric, including determining the linear dimensions and surface density, the number of threads per 10 cm, breaking load, pilling, crush resistance, resistance to extensibility, flaking, abrasion resistance, hygroscopicity, breathability, color fastness , resizing after wet processing further comprises determining a residual rate of contamination _(about 3%) representing the ratio of the remaining contamination after washing in with oriocephalic tissues of both bleached and colored light tones to the total amount of applied pollution, which is calculated by the formula:

where X _claim , X _s and X _st are the coefficient values in the blue region in the wavelength range of 400 - 457 nm, respectively, for the initial fabric, fabric artificially contaminated with an aqueous suspension prepared on the basis of soot and oil, and fabric washed with a synthetic detergent in household washing machine;
Y _ref , Y _s and Y _st - the value of the reflection coefficient in the green region of the spectrum in the wavelength range of 520 - 540 nm, respectively, for the original tissue, artificially contaminated, and washed fabric;
Z _Ref , Z _s and Z _St - the value of the reflection coefficient in the red region of the spectrum in the wavelength range of 620 - 640 nm, respectively, for the original tissue, artificially contaminated, and washed fabric; moreover, the value of the indicator of residual contamination should satisfy the condition of 30≤48%.

The determination of the indicator of residual pollution by the proposed method is carried out using the following equipment:
a photometric device, or Zeiss leukometer, or another device that allows you to measure the reflection coefficient of the tissue surface in the blue, green and red regions of the spectrum;
household washing machine of the activator type, in which washing is carried out by mixing samples of fabric and washing solution with a horizontally rotating blade disk.

 For testing, 3 samples are taken with a size of 100x100 mm of clean shirts and dresses without spinning, weaving and mechanical defects and without external defects of dyeing and finishing production (see table. 1).

 Before treatment with a contaminant suspension, the reflection coefficients of the tissue surface are measured on an FO-1 photometric device in the blue, green, and red spectral regions at a wavelength of 457 nm, 520 nm, and 620 nm, respectively. Each sample is measured 2 times from the front and the wrong side of the tissue (in different halves - only 4 times).

 Shirts-dressing tissue is contaminated with an artificial suspension that simulates fat loss when wearing products from these fabrics.

 It was experimentally discovered and proved that one exposure to artificial polluting suspension on shabby-worn fabrics corresponds to 5 days of wearing products from these fabrics under operating conditions.

To prepare the contaminant suspension, the following components are used (according to the current regulatory documentation): oleic acid - 4 ± 0.2 g, lanolin - 3 ± 0.2 g, soot - 0.2 ± 0.01 g, casein - 2 ± 0, 2 g, liquid paraffin - 1 ± 0.1 g, ammonia - 5 ± 0.5 cm ³ , emulsifier - 1 ± 0.1 g, distilled water to - 1 liter.

 First, a casein solution is prepared: ground casein, previously soaked, and 20 ml of distilled water are ground in a porcelain mortar for 12 hours to a homogeneous creamy mass; 20 ml of a solution of ammonia in distilled water are poured into ground casein.

 Combine the fat components preheated on an electric stove before melting, adding an emulsifier one drop after each component. A portion of soot is poured into the fat mixture and triturated thoroughly until the color is evenly colored, after which casein solution is poured into it and everything is mixed well. Then the whole mixture is gradually diluted with warm distilled water with stirring, and then poured into a flask, where the volume of the suspension is adjusted to 1 liter.

Contaminant suspension is poured into an enameled container with a volume of at least 3 liters. The sample is immersed in the suspension 2-3 times, then slightly squeezed out by hand, without twisting the fabric, and crumpling it, so repeat 3 times. For drying, samples are suspended on paper clips in a straightened form. Air-dry samples under normal climatic conditions are ironed through filter paper with an iron weighing 1.8 ± 0.2 kg when the sole is heated no more than 150 ^o C and the reflectance of the surface of the contaminated fabric is measured again as described above.

The washing is performed with lotus washing powder according to the temperature-time regime of a two-bath wash, identical for all types of fabrics. The calculation of the module of the bath and the preparation of ballast tissue is carried out in accordance with TU 6-15-1836-95. The washing mode includes: prewash for 2 minutes at an initial water temperature of 45 ± 2 ^o C (powder concentration - 3 g / dm ³ ), the main wash lasting 6 minutes at an initial water temperature of 80 ± 2 ^o C (powder concentration - 5 g / dm ³ ) and two rinses in tap water for 2 minutes each at a temperature for the first rinse: 45 ± 2 ^o C, for the second: 25 ± 2 ^o C. After washing, the samples are dried on staples in a suspended state, ironed through a filter paper and for the third time measure the reflection coefficients of the surface ti tissue as indicated above.

The test result is the arithmetic average of the reflection coefficients from 4 measurement results for each filter, rounded to the first decimal place (A _cf. table. 2).

The data in table 2 (σ ₁ % - standard deviation and E,% - relative error with a confidence level of 0.95) illustrate the uniformity of contamination and washing of the samples, as well as the high reproducibility of the results obtained on three parallel samples by the proposed method.

Based on the A _cf test results, an indicator of residual contamination (3 _° ) is calculated, by which it is possible to determine the change in tissue quality during operation (see table 3).

The final test result is taken to be 3 _o rounded to an integer.

Остальные показатели 3_о рассчитывают аналогично.An example of calculating the indicator of residual contamination by the proposed formula for fabric N 1 (3 _about = 32%):

The remaining indicators of 3 _about calculated in the same way.

For example, when a satisfactory whiteness performance, breaking load, hygroscopicity and breathability starting tissue N 1 and N 6 fabric sample N 6 less durable, since in terms of residual contamination (3 _a = 53%) is possible to predict the change in operational reliability of the tissue, and additional costs for frequent washing.

 Using the proposed method allows you to take into account the properties of shirts and dressing fabrics, different in fiber composition and type of finish, changing during operation in combination with pollution, so the results obtained using this method are close to the actual behavior of the fabric during operation. The correlation coefficient of the experimental results between the assessment of tissue by individual indicators (for example, hygroscopicity, air permeability) and generalized indicators of residual contamination is satisfactory. By the level of residual contamination of the fabric, one can judge the operational reliability of products from shirts and dresses, which significantly reduces the duration of the control.

 Thus, the indicator of residual contamination of shirts and dresses obtained by the claimed method, more reliably characterizes the operational reliability of the fabric when worn products, as at the same time as the forecast gives an idea of changes in physical and mechanical properties and the level of safety for life and health of the population (see. table 3). Different numerical values of the indicator of residual contamination of shirts and dressing tissues as a result of laboratory exposure that simulates real operating conditions indicate significant differences in the tissues, and the proposed method can reliably evaluate these differences, which facilitates a targeted change in the physicomechanical properties of the finished tissues (see table . 3).

Claims (1)

A method for assessing the quality of fabric, including determining linear dimensions and surface density, number of strands per 10 cm, breaking load, pilling, crush resistance, resistance to extensibility, flaking, abrasion resistance, hygroscopicity, air permeability, color fastness, resizing after wet processing, characterized in that the indicator further comprises determining a residual contamination (3 _o,%), which is the ratio of the remaining contamination after washing on sorochechnyh-dress fabrics like sel PARTICULAR, and colored bright colors applied to the total amount of pollution, which is calculated according to the formula

where X _ref , X _z and X _st are the values of the reflection coefficient in the blue region of the spectrum in the wavelength range 400 - 457 nm, respectively, for the initial fabric, fabric artificially contaminated with an aqueous suspension prepared on the basis of soot and oil, and fabric washed with synthetic detergent means in a household washing machine;
Y _ref , Y _s and Y _st , is the value of the reflection coefficient in the green region of the spectrum in the wavelength range of 520 - 540 nm, respectively, for the original tissue, artificially contaminated and washed fabric;
Z _ref , Z _s and Z _st - the value of the reflection coefficient in the red region of the spectrum in the wavelength range of 620 - 640 nm, respectively, for the original tissue, artificially contaminated and washed fabric,
moreover, the value of the indicator of residual pollution should satisfy the condition 3 _o ≤ 48%.

Images