SU1138387A1 - Method and device for determining spinning properties of textile materials - Google Patents

Abstract

1. The method of determining the molding properties of textile materials, lies in the uniaxial stretching of the sample and the evaluation of the molding properties, characterized in that, in order to increase the reliability of the results, the stretching is carried out by a uniformly increasing load to a given amount of deformation, and the evaluation of the molding properties is carried out corresponding to the magnitude of the load. 2. An apparatus for determining the molding properties of textiles, comprising movable and fixed clamps, a loading mechanism associated with a movable clamp, means for effecting a plasticizing medium, and means for measuring the amount of movement of the movable clamp, characterized in that, in order to increase the reliability of the results, The loading mechanism is equipped with a loading force meter and has a means for smoothly changing the loading. 3. The device according to claim 2, o, t is intended to: in order to improve operational characteristics, the movable jig is provided with a detachable guide, and the means (L to effect the plasticizing medium are designed as a sealed, detachable placed in it with a bath with a heater and means for supplying plasticizing solutions into it, with each short-circuit parts of the detachable guide, mounted on the corresponding parts of the detachable housing. 4. The device according to claim 3, about 100 It is based on the fact that the means for supplying plasticizing solutions is made in the form of a pipeline fixed in the wall between the sample and the bathtub connected to the measuring vessel.

Description

111 The invention relates to the textile and clothing industries of light industry and can be used to determine the rational modes of wet-heat treatment of textile garments. A known method for determining the molding properties of textile materials, consisting of S uniaxial stretching of the sample and evaluation of the molding properties of L. The disadvantage of this method is the inconsistency of the conditions of testing with the conditions of the actual formation of products, which leads to unreliable results. A device containing movable and stationary clamps, a loading mechanism associated with a movable clamp, means for effecting a plasticizing medium, and means for measuring the amount of movement of the movable clamp 2J are known. The disadvantages of the known device are the lack of means for measuring the loading force, smoothly changing the loading value. and the same imperfect performance characteristics of the movable clamp and means for effecting a plasticizing medium, reducing access fidelity results. The purpose of the invention is to increase the reliability of the results, as well as improve the operational characteristics of the device. This goal is achieved by the fact that according to the method consisting in uniaxial stretching of the sample and evaluation of the molding properties, the stretching is carried out by a uniformly increasing load up to a predetermined strain value, and the molding properties are evaluated according to the corresponding load value. In a device comprising movable and stationary clamps, a loading mechanism associated with a movable clamp, means for effecting a plasticizing medium, and means for measuring the amount of movement of the movable clamp, the loading mechanism is provided with a load boost meter and has means for smoothly changing the load. 87 In this case, the movable clamp is provided with a detachable guide, and the means for effecting the plasticizing medium is made in the form of a geometric detachable chamber in the plane of sample placement with a bath with a heater and means for supplying plasticizer solutions into it, each fixed to the respective parts of the split housing. In addition, the means for supplying plasticizing solutions is made in the form of a pipeline fixed in the chamber wall between the sample and the bathtub, which is connected to the measuring vessel. I The drawing shows a device for implementing a method for determining the molding properties of textile materials. The device is mounted on the base on which all elements and components are located. It contains the loading mechanism 1 in the form of a reversible electric motor providing smooth load variation, sprocket 2 and chain transmission 3. The means for effecting the plasticizing medium is made in the form of a sealed chamber detachable in the horizontal plane of the sample placement. The chamber consists of the body 4 and the cover 5 In the chamber there is a bath 6 with a heater 7. Outside the chamber there is a means for supplying plasticizing solutions into it, made in the form of a chamber fixed in the wall between the sample 8 and the bath 6 of a pipe 9 connected to the measuring vessel 10. The device comprises means for measuring the amount of movement of the movable clamp 11, for example, of the clock type. The soft loading mechanism is provided with a loading force meter 12, for example, a dynamometer connected to the loading mechanism and the upper bar 13 of the movable clip. Two clamps are used to secure the ends of the specimen: mobile and stationary. The movable clamp is made in the form of two movable planks: the upper 13 and the lower 14. The upper strap 13 has needles 15, and the lower 14 has holes for their placement. The strips are made detachable in the plane of placement of the sample 8 and are placed in a detachable guide 16, both parts of which are fixed to the housing 4 and the cover 5 of the chamber. The fixed clamp consists, for example, of two rubber jaws: the lower 17 and the upper 18. The lower jaw 17 is rigidly fixed to the body 4 of the chamber, and the upper jaw 18 is made lifting and with the help of a spring 19 is connected to the lower jaw 17. The trumpet 9 has a valve 20. Example When testing cotton flakes art. 3304 and semi woolen worsted fabric Art.2371 14 C Kakhovka (GOST 15625-80), the molding properties are determined in the direction of the warp with a clamping length of samples of 20 mm and a width of 30 mm. The test modes are as follows: relative humidity 98i2; air temperature. I use water vapor as a plasticizer. The strain force is recorded after uniform stretching of the specimen by 10 mm, which corresponds to a relative elongation of 5%. The amount of effort for fabric art. 3304 is -4 N, for fabric art. 23718/14 C Kakhovka - 13 N. The results show that under these conditions, the molding properties of the fabric are art. 3304 over more than 3 times. The device works as follows. In the measuring vessel 10 pour a certain volume of plasticizer solution. With the cover open 5, sample 8 of the textile material tested is fixed. To do this, raise the upper cap of the fixed clip on the housing 4 and pass the end of the sample 8 between the upper 18 and lower 17 lips, lower the upper sponge 18 on the spring 19, thus reaching the preliminary fixing of the end of the sample 8 in the fixed clip. Another free end of sample 8 is placed on the bottom plate 14 of the under-and-out clamp. Before fixing, a pre-load may be applied to the free end of the sample, for example, with the help of a load. Kirsch 5 is lowered and the chamber is locked, thereby finally securing sample 8; in the fixed clamp by increasing the clamping force of the upper jaw 18 to the lower 17, and in the movable clamp by piercing the sample with 8 needles 15 all over the film 13. The fixed sample 8 is in the horizontal plane. Using the heater 7, the temperature in the chamber is set so as to ensure the immediate evaporation of the plasticizer solution and the creation of the required humidity and temperature in the plasticizing medium in the chamber. The valve 20 is opened and the plasticizer solution is fed through line 9 into the bath 6, from the hot surface of which the plasticizer evaporates. The filled sample is plasticized. The mechanical load measuring unit 1 is turned on and the engine, through a sprocket 2, chain transmission 3 and dynamometer 12, carried out a smooth movement of the upper 13 and lower 14 bars of the movable clamp along the guide 16, uniformly extends the sample to a predetermined strain value controlled by an indicator 11. After bringing the engine off and taking the readings of the dynamometer 12. The application of the proposed method and device makes it possible to obtain reliable data for the development of technological processes for the formation of textile materials. yy /////

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Claims (4)

1. The method of determining the molding properties of textile materials, which consists in uniaxial stretching of the sample and evaluating the molding properties, characterized in that, in order to increase the reliability of the results, the tension is carried out by a uniformly increasing load to a predetermined strain value, and the molding properties are evaluated according to the corresponding load value . 2. A device for determining the molding properties of textile materials containing movable and fixed clamps, a loading mechanism associated with a movable clamp, means for effecting a plasticizing medium, and means for measuring the magnitude of the movement of the movable clamp, characterized in that, in order to increase the reliability of the results, the loading mechanism is equipped with a load force meter and has means for smoothly changing the loading. 3. The device according to claim 2, in which, in order to improve operational characteristics, the movable clamp is provided with a detachable guide, and the means for effecting the plasticizing medium is made in the form of a sealed detachable chamber in the plane of placement of the sample chamber ? in it is a bath with a heater and a means of supplying plasticizing solutions to it, while each of the parts of the split guide is fixed to the corresponding parts of the split housing. 4. The device according to claim 3, wherein the means for supplying plasticizing solutions is made in the form of a pipeline fixed to the wall of the chamber between the sample and the bathtub connected to a measuring vessel.