RU2456594C1 - Device for determining deformation properties of jersey fabric in tension by nondestructive method - Google Patents

Abstract

FIELD: textiles, paper.

SUBSTANCE: using the proposed device it is possible to determine the deformation properties of jersey fabric in spatial deformation, assessment of amount of the transverse reduction in tension and stretching property at a fixed width of a sample by nondestructive method. The same device can be used to test the samples in the form of a rectangle of different widths, as well as ring-shaped samples in accordance with the standard procedure.

EFFECT: possibility of assessment of deformation properties of jersey fabric with instrumental nondestructive method.

5 cl, 4 dwg

Description

The invention relates to a testing technique, namely to measuring the deformation properties of knitted fabrics in tension, and can be used to determine elongation and irreversible deformation under loads less than breaking.

The characteristics obtained by applying smaller breaking loads make it possible to judge the behavior of knitwear in the manufacture of products and during operation. The most valuable for knitted fabrics are the characteristics of elongation, which are taken into account when developing designs of products from knitted fabrics to determine the values of structural increments and narrowing limits [1].

Known devices for determining the deformation properties of tensile knit under uniaxial tension. Classical are explosive machines having one fixed clamp connected to a force measuring device and one movable clamp, driven by an electric motor [1]. The positive properties of such devices include a wide range of types of tested materials, the values of the applied loads and the applied loading speeds. However, the discontinuous characteristics of knitwear do not fully characterize its behavior under operational loads that are significantly lower than discontinuous. On a tensile testing machine of type РМ-3, a tensile test is possible under light loads if the clamps are replaced with hooks [2].

There is a device [3], which, when fixed in the clamps of a tensile testing machine, allows testing to determine the elongation indices of knitted fabrics with a fixed width of the sample. Due to the increased width of the sample on the same device, it is proposed to determine the amount of transverse contraction of the sample in the middle zone, where the edge effect does not work.

To determine the deformation properties of knitwear at loads less than breaking, the PR-2 device and its modification PR-3 are designed to fix the elongation of a knitwear sample at a given load [2]. This device allows you to determine the deformation properties of knitwear at low operational loads, less than breaking. This device is selected as a prototype.

A disadvantage of the known devices for determining the deformation properties of canvases under tension (tensile and permanent deformation under loads less than breaking) is that they can only be tested by destructive methods, that is, samples of the canvas are cut which, after the test, are unsuitable for their intended use.

The technical result of the invention is the creation of an easy-to-use device that provides an opportunity to assess the deformation properties of knitted fabrics with a tool that does not violate the integrity of the fabric. Additionally, on the proposed device, it is possible to determine the deformation properties of knitwear during spatial deformation, to assess the magnitude of the transverse reduction under tension and elongation at a fixed width of the fabric non-destructive method.

On the proposed device, it is possible to implement and destructive method for determining the deformation properties under tension. In this case, a test is carried out on samples in the form of a rectangle of various widths, as well as ring-shaped samples in accordance with standard methods.

The invention is illustrated by drawings:

1 is a diagram of a device (front view) when testing a web in a roll of material (implementation of a non-destructive method);

figure 2 - diagram of the device (front view) when tested using removable hemispherical surfaces;

figure 3 - diagram of the device (top view) when testing an annular sample (implementation of the destructive method) .;

4 is a digital image of the device.

The proposed device contains a horizontally located supporting platform 8, on which all of its functional elements are mounted. The structure of the device includes a fixed clamp 6 and a movable clamp 3 for fixing the web, a tension device 1 for stretching the web, an elastic element (dynamometer) 2. Interchangeable clamps 5 provide fixation and stretching of the web or rectangular sample of the required width. The lateral guides 10 of the movable clamp are necessary for uniform deformation of the test material across the width. The L-shaped stand 21 of the fixed clamp and the screw 20 having a top location and maximally offset to the edge of the stand relative to the platform allow the web to pass between the base 19 of the fixed clamp 6 and the platform 8. A roll of material is located on the rack 12. The webcam 16, mounted on a rack, is connected to a computer 17 and is designed to assess the deformation properties of paintings under tension by direct observation by means of optical-electronic image processing.

Removable brackets 18 U-shaped with hooks are installed when testing ring-shaped samples. Removable hemispherical surfaces 7 are installed if necessary spatial deformation of the canvas. Additionally, the device contains removable elements 15 with vertical movable needles located in the guide grooves 14 and providing a test with a fixed width of the canvas.

The device operates as follows.

The knitted fabric 11 in the roll is placed on the rack 12. The edge of the fabric is fixed in a fixed clip 6, while the fabric is located between the base 19 of the fixed clip and the platform 8 of the device. Interchangeable clamps 5 are used to fix and stretch a section of the web or rectangular sample of the required width (for example, 50 mm wide in accordance with the width of the sample according to the standard method [2]). When testing the canvas with a working area width different from the standard, the applied load is recalculated (taking into account the standard 1.2 N / cm).

The distance between the fixed clamp 6 and the movable clamp 3 is set to 100 mm. The web is fixed in the movable clamp 3 as shown in FIG. As a result of the rotation of the flywheel 13 of the tensioning device 1, the working area of the web fixed by the clamps is stretched. The elongation of the web is determined on a scale of 9 with an accuracy of 1.0 mm when a standard load of 6 N is applied [2]. The spring dynamometer 2 allows you to set the forces corresponding to the operational loads in the products.

To determine the irreversible deformation, the deformed working area of the canvas is left on the paws of the device for 10 minutes, in accordance with the standard method. By rotating the flywheel 13 of the tensioning device 1, the force is removed to zero and after 30 minutes the length of the working area of the web is determined on a scale. Using the obtained measurements, carry out the necessary calculations to determine the irreversible part of the deformation.

The proposed device allows you to determine the amount of lateral contraction in the canvas non-destructive method. To do this, parallel lines are preliminarily applied on the canvas at a distance of, for example, 100 mm from each other. After applying a given load of 6 N, the distance between the drawn lines in the middle part of the sample is measured and the value of the transverse reduction is calculated from the obtained values. The use of the canvas, and not an elementary sample, completely eliminates the influence of the edge effect on the test results.

The proposed device also implements the ability to determine the deformation properties (elongation and irreversible deformation under loads less than breaking) with a fixed width of the test sample, which corresponds to the conditions of deformation of the canvas when putting the product on the figure of a person. A distinctive feature is the possibility of implementing a non-destructive method. When conducting tests with a fixed web width, the removable elements 15 with vertical movable needles are installed in the guide grooves 14. The width of the working zone of the web when determining the deformation characteristics at a fixed width is 100 mm in accordance with the distance between the guide grooves 14. After fixing the working area of the web in a fixed clip 6, the edges of the canvas are straightened and pricked on the needles. When stretching the clamped working area of the web, the needles simultaneously move along the guides of the slots 14. The test procedure for a fixed web width is similar to tests without fixing the sides.

Determination of the deformation properties of knitwear during spatial deformation on the proposed device is carried out using removable surfaces 7 in the form of a hemisphere, simulating volumetric areas of a human figure. Previously, a circle is applied on the canvas with chalk, for example, with a radius of 30 mm. Digital photography of the working area of the canvas is carried out before deformation. A removable surface in the form of a hemisphere is installed on the platform and the working section of the web is deformed. After deformation of the web, a removable spherical surface is removed and digital photography of the working area is repeated. Assessment of the deformation properties of paintings in spatial tension is carried out as a result of optical-electronic image processing.

In relation to the prototype of the proposed device has the following advantages:

- the ability to assess the deformation properties of knitted fabrics (tensile and irreversible deformation at loads less than breaking at longitudinal application of the load) instrumental non-destructive method;

- the ability to assess elongation at a fixed sample width by a non-destructive method;

- the ability to determine the magnitude of the transverse contraction of the canvas when stretched non-destructive method;

- the ability to test samples of rectangular shape of various widths;

- the ability to assess the deformation properties of knitwear during spatial deformation.

Thus, the proposed device allows in the conditions of the production enterprise to expressly determine without deformation the deformation properties in any part of the whole knitted fabric using a device based on the standard (GOST 8847-85), while it is simple to implement and use, which is the technical result inventions.

List of sources used

1. Torkunova Z.A. Tests of knitwear / Z.A. Torkunova. - 2nd ed. reslave. - M .: Legpromizdat, 1985 .-- 200 p.

2. GOST 8847-85 Knitted fabrics. Methods for determining discontinuous characteristics and tensile properties under loads, less discontinuous.

3. Patent for utility model 75050, Russian Federation, IPC G01N 33/36 (2006.01). A device for determining the deformation properties of a knitted fabric / Sheromova I.A., Starkova G.P., Novikova A.V., Dremlyuga O.A. - publ. 07/20/2008, BI No. 20-2008.

Claims (5)

1. A device for determining the deformation properties of knitted fabrics in tension by a non-destructive method, containing means for fixing the test material, a loading system and a scale for recording deformation of the fabric, characterized in that, in order to realize the possibility of using the non-destructive method, all the main functional elements are located on a horizontal platform while the fixed clamp containing the L-shaped rack, the screw has a top location and is most offset towards the edge of the rack relative of the platform, while the fixed clamp screw holes in the base clamp to the edge of the maximum offset relative to the longitudinal axis to increase the contact area between the blade and the clamping base. 2. The device according to claim 1, characterized in that it further comprises removable removable clamps that allow you to change the width of the working area of the canvas. 3. The device according to claim 1, characterized in that it further comprises a rack for arranging a roll of material. 4. The device according to claim 1, characterized in that, for the purpose of testing with a fixed width of the canvas, further comprises removable elements with vertical movable needles located in the guide grooves of the supporting horizontal platform. 5. The device according to claim 1, characterized in that, in order to assess the deformation properties of the webs under tension by direct observation methods by means of optoelectronic image processing, it further comprises a digital camera connected to a computer mounted on a rack.

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