RU2163017C1 - Method for determination of flexural rigidity of textile materials - Google Patents

Abstract

FIELD: methods for tests and measurements, in particular, methods for determination of characteristics of textile materials in bending, applicable in light industry and in the sphere of everyday services. SUBSTANCE: specimen under test is placed on a foot platform, pressed by a weight to the fixed part of the foot platform, the flexures of the specimen ends are measured after lowering of the movable part of the foot platform and separation of the specimen from it, and the rigidity is calculated according to the relative sag and mass. A specimen in the form of a "daisy", whose petals, measuring 30x70 mm, have different directions typical for the cut of the clothes is taken for the test, and the rigidity is determined by a formula, in which the mass of five standard specimens is expressed through the surface density of material

where B - rigidity of textile materials, μN·cm²; Ms - mass of 1 sq.m - surface density of material, g/sq.m; A - function of relative flexure. The directions of petals correspond to 15, 30, 45, 60, 75, 90 to 345 deg. to the longitudinal direction of material. EFFECT: approximated conditions of tests to the conditions of shaping of clothes. 2 cl, 2 dwg, 1 tbl

Description

 The invention relates to techniques for testing and measurement, and in particular to methods for determining the characteristics of textile materials in bending, and can be used in light industry and consumer services.

 A known method of determining stiffness by the magnitude of the load required for deflection of a sample bent by a ring by 1/3 of the initial diameter / GOST 8977-74. Artificial leather and film materials.

 The disadvantage of this method is that it is used to test materials with significant rigidity, that is, materials that can bend to form a circle, not an ellipse.

 A known method for determining the stiffness of textile materials in bending, in which the test sample is placed on a supporting platform, is pressed with a load to a fixed part of the platform, the deflections of the ends of the sample are measured after lowering the movable part of the supporting platform and the separation of the sample from it, and the stiffness relative to the deflection arrow and mass are calculated / GOST 10550-93. Textile materials. Cloths.

где E - модуль продольной упругости;
I - момент инерции сечения тела относительно нейтральной оси;
m - масса пяти стандартных проб /продольного или поперечного направлений/, г;
A - функция относительного прогиба /лепестки шириной 30 мм и длиной свешивающейся части 70 мм/, определяемая по таблице /ГОСТ 10550-75/.The conditional value of stiffness B, μN · cm ² , is calculated for the longitudinal and transverse directions according to the formula:

where E is the modulus of longitudinal elasticity;
I - moment of inertia of the body section relative to the neutral axis;
m is the mass of five standard samples / longitudinal or transverse directions /, g;
A - relative deflection function / petals with a width of 30 mm and a length of the hanging part 70 mm /, determined according to the table / GOST 10550-75 /.

Недостатком такого способа является то, что метод по испытанию одной пробы материала дает представление о жесткости только в одном направлении. Оценка жесткости под различными углами требует повышения материалоемкости и трудоемкости за счет выкраивания проб в различных направлениях.To characterize the anisotropy of the material, the stiffness coefficient K _eI is determined, which is the ratio of the longitudinal stiffness of the material to its transverse stiffness:

The disadvantage of this method is that the method for testing one sample of the material gives an idea of the rigidity in only one direction. Evaluation of stiffness at different angles requires an increase in material consumption and complexity due to the cutting out of samples in different directions.

где B - жесткость текстильных материалов, мкН·см²;
M_S - масса 1 м² - поверхностная плотность материала, г/м²;
A - функция относительного прогиба.The technological result achieved by the implementation of the claimed invention is to bring the test conditions closer to the conditions of manufacture and operation of clothes, reduce the material consumption of the tests and increase the information content of the obtained characteristics. The specified technical result is achieved by the fact that in the method for determining the stiffness of textile materials during bending, according to which the test sample is placed on the supporting platform, is pressed with weight to the fixed part of the supporting platform, the deflection of the ends of the sample is measured after lowering the movable part of the supporting platform and separating the sample from it, and stiffness is calculated from the relative deflection arrow and mass, according to the invention, a sample in the form of a “camomile” is used as a sample, the petals of which size 30 x 70 mm have different directions Ia characteristic cut clothing items, but the rigidity is determined by a formula in which the mass of the five standard samples expressed in terms of the surface density of the material:

where B is the stiffness of textile materials, μN · cm ² ;
M _S - mass 1 m ² - surface density of the material, g / m ² ;
A is the relative deflection function.

In addition, the directions of the petals correspond to 15, 30, 45, 60, 75, 90 .. .345 ^o to the longitudinal direction of the material.

 The method determines the stiffness and anisotropy of stiffness when bending fabrics, knitwear, non-woven materials, as well as clothing packages consisting of various materials. The characteristics obtained during the tests make it possible to predict the stiffness of various parts of articles made of textile materials and evaluate the synergistic effect of the application of a particular method of joining layers of materials in a clothing package. The ability to predict stiffness anisotropy will make it possible to provide a scientifically based choice of materials and clothing cuts, an optimal arrangement of design lines and, ultimately, the production of competitively capable garments.

 The table shows the results of determining the stiffness of cotton, linen, mixed and heterogeneous materials.

The invention is illustrated in the drawing, where in FIG. 1 shows a test sample in the form of a “chamomile”;
in FIG. 2 - polar diagrams of anisotropy of tissue stiffness in bending, where dashed line denotes pure tissue; the solid line is the linen flax fabric; dash-dotted - flax cotton fabric; dots - cotton fabric.

 The method is as follows.

Test sample / FIG. 1 / in the form of a "daisy" / with an outer diameter of 185 mm and an inner - 115 mm / with 24 "petals" of rectangular shape 30 x 70 mm, marked at angles, for example, 0, 15, 30, 45, 60, 75 , 90 ... 345 ^o , placed on a horizontal supporting platform / R = 190 mm / and pressed in the center (R = 115 mm) with a load that makes contact of the test sample with the plane of the fixed part of the supporting platform. During the test, the external movable part of the supporting platform is lowered and the “petals” of the sample are bent. The deflection index is raised to touch the ends of the "petals" of the sample and the absolute values of the deflection / f / are determined on a scale. Measurements are carried out in a known manner.

где E - модуль продольной упругости;
I - момент инерции сечения тела относительно нейтральной оси;
m - масса пяти стандартных проб по /ГОСТ 10550-75/, г;
M_s - масса 1 м² - поверхностная плотность материала, г/м²;
A - функция относительного прогиба /f0 = f17/, определяемая по таблице /ГОСТ 10550-75/.The conditional value of stiffness B, μN · cm ^{2 is} calculated for each direction according to a unified formula obtained by mathematical transformations from a formula recommended by the standard:

where E is the modulus of longitudinal elasticity;
I - moment of inertia of the body section relative to the neutral axis;
m is the mass of five standard samples according to / GOST 10550-75 /, g;
M _s - mass 1 m ² - surface density of the material, g / m ² ;
A - relative deflection function / f0 = f17 /, determined according to the table / GOST 10550-75 /.

In contrast to the sample mass determined by weighing, the surface mass M _{s is used} , which is given in the scientific and technical documentation for the materials under study.

It is proposed to evaluate the stiffness anisotropy according to the polar stiffness diagram in various directions, for example, at angles 0, 15, 30, 45, 90 ... 345 ^o (Fig. 2).

 The method allows to evaluate the anisotropy of the stiffness of textile materials and objectively assess the ability of materials to form in clothes and provide for the deformation of parts and products as a whole at the stage of design and cutting of clothes.

 Thus, the method by changing the shape of the sample when reducing materials / instead of 10 samples one is tested /, allows you to objectively assess the stiffness of the material in all directions by expanding the number of measurements. Information about the anisotropy of the stiffness of materials at the stage of designing clothes makes it possible to predict the quality of garments and to reasonably choose materials in a package of clothes and a constructive solution to products.

 An advantage of the invention is the approximation of test conditions to the conditions of formation and shaping of clothing and the expansion of the information content of the obtained characteristics by measuring in all directions.

Claims (2)

1. A method for determining the stiffness of textile materials in bending, according to which the test sample is placed on the supporting platform, is pressed with a load to the fixed part of the supporting platform, the deflection of the ends of the sample is measured after lowering the movable part of the supporting platform and separating the sample from it, and the relative deflection arrow and mass stiffness is calculated, characterized in that, as a sample, a sample in the form of a "daisy" is used, the petals of which are 30 x 70 mm in size and have different directions characteristic of the cut of clothing parts, and the stiffness is op divided by the formula in which the mass of five standard samples is expressed through the surface density of the material:

where B is the stiffness of textile materials, μN · cm ² ;
M _s - mass 1 m ² - surface density of the material, g / m ² ;
A is the relative deflection function. 2. The method according to claim 1, characterized in that the directions of the petals correspond to 15, 30, 45, 60, 75, 90 ... 345 ^o to the longitudinal direction of the material.

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