RU2012108467A - METHOD FOR DETERMINING MECHANICAL CHARACTERISTICS OF SEWING MATERIALS AND INSTALLATION FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. A method for mechanical testing of sewing materials and compounds, which consists in the fact that, by loading a sample of the material fixed on the unit through a volumetric, for example, hemispherical, working element (punch), electrical signals from strain gauges connected through elastic sensors are received on the recording means in the form of an oscilloscope elements with the test sample, reflecting the acting forces on the areas of the test sample along the axes 0X, 0U, 0Z, which are used to judge the multiaxial deformation of the material sample, further, knowing the dimensional parameters the desired stresses acting on these sections of the sample are found, characterized in that the desired stresses on the material sample are determined in dynamics under the action of a continuous process of wear under cyclic load, by comparing the stress in the material sample at the beginning of the test cycle and at the end determine the effect of wear on the mechanical characteristics of the test material. 2. The method according to claim 2, characterized in that the desired stresses on the sample of material are determined under the action of the corresponding mode of wet-heat treatment. Installation for mechanical testing of sewing materials and joints, including clamping means in the form of a contour for fastening the test sample in a horizontal plane, a rod aligned with the working body coaxially with it, and clamping means are formed by several open clamps, for example, two pairs located on mutually perpendicular axes moreover, each of the clamps is made in the form of two plates tightened by screws, and guide rollers are installed parallel to the clamps, and I mention

Claims (4)

1. A method for mechanical testing of sewing materials and compounds, which consists in the fact that, by loading a sample of the material fixed on the unit through a volumetric, for example, hemispherical, working element (punch), electrical signals from strain gauges connected through elastic sensors are received on the recording means in the form of an oscilloscope elements with the test sample, reflecting the acting forces on the areas of the test sample along the axes 0X, 0U, 0Z, which are used to judge the multiaxial deformation of the material sample, further, knowing the dimensional parameters the desired stresses acting on these sections of the sample are found, characterized in that the desired stresses on the material sample are determined in dynamics under the action of a continuous process of wear under cyclic load, by comparing the stress in the material sample at the beginning of the test cycle and at the end determine the effect of wear on the mechanical characteristics of the test material. 2. The method according to claim 2, characterized in that the desired voltage on the sample of material is determined by the action of the corresponding mode of wet-heat treatment. 3. Installation for mechanical testing of sewing materials and compounds, including clamping means in the form of a contour for fastening the test sample in a horizontal plane, a rod with a working body mounted coaxially with it, and clamping means formed by several clamps that are not open to each other, for example, two pairs located on mutually perpendicular to the axes, each of the clamps made in the form of two plates tightened by screws, and guide rollers are installed parallel to the clamps, and the said rod kinematically with it is equipped with a sample loading mechanism and a means of measuring the deforming force acting on it, the loading mechanism consists of transmission links associated with the drive, an electric strain gauge is installed on one of the links, the device for measuring the movement of the working body is made in the form of a mechanical system: a scale on the installation case and the arrow is a pointer on the rod, and for measuring the multiaxial deformation of the sample is a device that includes elastic elements, each of them is made, for example, in the form -shaped parts, on one rack of which the lower plate of the clamp is rigidly fixed with the possibility of movement together with the upper plate relative to the installation case when the test sample is deformed, while the other rack is rigidly connected to the installation case, on the crossbar of the U-shaped part, electric strain sensors and all electric strain sensors are installed the devices are connected to an amplifier of electrical signals and a recording unit, for example, to an oscilloscope, characterized in that as a drive of the working body of the punch serves as an electric vibrator that can be moved in a vertical plane, the working body is a hollow punch, closed at the bottom and spring-loaded, the guide rollers are covered with gray overcoat, the rod is hollow, closed at the bottom, has a fitting for connecting to a steam generator in the middle part, and in the upper part part is connected to the cavity of the punch, which has a series of through holes on the spherical surface for steam to enter the deformation zone of the test material sample. 4. Installation according to claim 2, characterized in that the guide rollers may not be covered with gray-overcloth or covered with other material.