RU2725530C1 - Bench for static tests of composite multilayer materials (versions) - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: invention relates to machine building and can be used for static tests of composite multilayer materials. According to the first version, the bench contains a frame, an upper movable plate fixed on the loading mechanism, a lower fixed plate rigidly fixed on the frame, a vertical loading mechanism made in the form of "screw-nut" coupling, a guiding mechanism installed on the upper movable plate and on the frame through bushings, a movement meter installed in a bracket, which is fixed on the frame, a strain gauge installed and rigidly fixed on the lower fixed plate, a device for mounting a sample of composite multilayer material, consisting of two parts, one of which is fixed on upper movable plate, and second is fixed on strain gauge sensor, wherein vertical loading mechanism is installed on frame through bushing, and the nut is fixed in the bushing by fixing bolts, wherein the strain gauge, fixed between the lower fixed plate and the device, is connected to the analogue-to-digital converter, which in its turn is connected to personal computer installed with possibility of data processing from analogue-to-digital converter. According to the second version, the bench contains a frame, an upper movable plate fixed on the loading mechanism, a lower fixed plate rigidly fixed on the frame, a vertical loading mechanism made in the form of "screw-nut" coupling, guide mechanism installed on upper movable plate and on frame through bushings, movement meter installed in bracket, which is fixed on frame, strain gauge sensor, installed and rigidly fixed on lower fixed plate, device for installation of sample from composite multilayer material, consisting of two parts, one of which is fixed on upper movable plate, and second is fixed on strain gauge sensor, wherein vertical loading mechanism is installed on frame through bushing, and nut is installed in bushing, loads are installed on screw of loading mechanism, wherein the strain gauge, fixed between the lower fixed plate and the appliance, is connected to an analogue-to-digital converter, which in its turn is connected to a personal computer installed with possibility of processing data from the analogue-to-digital converter.EFFECT: creation of compressive and stretching static loads in vertical direction for investigation of mechanical and operational properties of samples from composite multilayer materials.2 cl, 2 dwg

Description

The present invention relates to the field of engineering and can be used for static testing of composite multilayer materials.

An analogue of the model is a triaxial compression test specimen installation, containing a power frame, a working chamber with a rod installed in it for placing the specimen, nodes of mechanical axial and hydraulic lateral loads, and a device for ensuring a constant ratio of lateral and axial loads. (Copyright certificate SU No. 1226131 publ. 23.04.86, IPC G01N 3/10).

The disadvantages of the analogue are its design features that do not include mechanisms for measuring the deflection of the sample, as well as the inability to reproduce a strictly vertical load due to the lever loading system.

The prototype of the invention is a stand for static testing of vibration isolators (RF Patent for Utility Model No. 188124 published March 29, 2019, IPC G01N 3/08) containing a frame, a movable upper base plate and a fixed lower base plate mounted on adjustable supports, mounting brackets of the studied vibration isolators, fastened to base plates and fixed with a connector. To create axial force, there is a vertical loading mechanism with a vertical loading screw, and for lateral - a horizontal loading mechanism, with a horizontal loading screw and a bracket for adjusting the vertical position of the screw. To measure the force acting on the studied vibration isolators, a force meter is present in the form of a vertical force strain gauge and a horizontal force strain gauge, and a displacement meter consisting of a vertical and horizontal deflection sensor equipped with a vertical and horizontal adjustment mechanism and a rotary mechanism is used to measure their deformation. To move the upper movable base plate along a strictly vertical path, there is a guide mechanism made in the form of guide rods.

The disadvantage of the prototype is the limited functionality of its design that does not allow testing of samples from composite multilayer materials.

The objective of the invention is to create a stand design for static testing of samples from composite multilayer materials to study their mechanical and operational properties.

The technical result is the creation of static loads of compressive and tensile nature in the vertical direction to study the mechanical and operational properties of samples from composite multilayer materials.

The specified technical result according to the first embodiment is achieved by the fact that the bench for static testing of composite materials contains a frame, an upper movable plate fixed to the loading mechanism, a lower fixed plate rigidly fixed to the frame, the vertical loading mechanism is made in the form of a screw-nut coupling, a guiding mechanism mounted on the upper movable plate and on the frame through the bushings, the displacement meter is mounted in a bracket that is mounted on the frame, the strain gauge is mounted and rigidly mounted on the lower fixed plate, and additionally contains a device for installing a sample of composite multilayer material consisting of two parts, one of which is fixed on the upper movable plate, and the second is fixed on the strain gauge; the vertical loading mechanism is mounted on the frame through the sleeve, and the nut is fixed in the sleeve by fixing bolts; a strain gauge mounted between the lower fixed plate and the fixture and connected to an analog-to-digital converter, which in turn is connected to a personal computer installed with the ability to process data from an analog-to-digital converter.

The specified technical result according to the second embodiment is achieved by the fact that the bench for static testing of composite materials contains a frame, an upper movable plate fixed to the loading mechanism, a lower fixed plate rigidly fixed to the frame, the vertical loading mechanism is made in the form of a screw-nut coupling, a guiding mechanism mounted on the upper movable plate and on the frame through the bushings, the displacement meter is mounted in a bracket that is mounted on the frame, the strain gauge is mounted and rigidly mounted on the lower fixed plate, and additionally contains a device for installing a sample of composite multilayer material consisting of two parts, one of which is fixed on the upper movable plate, and the second is fixed on the strain gauge; the vertical loading mechanism is installed on the frame through the sleeve, and the nut is installed in the sleeve, the loads are installed on the screw of the loading mechanism; a strain gauge mounted between the lower fixed plate and the fixture and connected to an analog-to-digital converter, which in turn is connected to a personal computer installed with the ability to process data from an analog-to-digital converter.

The invention is illustrated by drawings:

in FIG. 1 shows a diagram of a bench according to the first embodiment of static tests;

in FIG. 2 shows a diagram of a bench according to the second embodiment of static tests.

According to the first variant, the bench for static tests of composite materials contains a frame 1, an upper movable plate 2 fixed to a vertical loading mechanism 4, a lower fixed plate 3 rigidly fixed to a frame 1, a vertical loading mechanism 4 made in the form of a screw-nut mating 5-6 and mounted on the frame 1 through the sleeve 7, and the nut 6 is fixed in the sleeve 7 by fixing bolts 8, the guide mechanism 9 is mounted on the upper movable plate 2 and on the frame through the bushings 10, the displacement meter 11 is installed in the bracket 12, which is mounted on the frame 1 , a device 13 for installing a sample of composite multilayer material 14 consisting of two parts, one of which is fixed to the upper movable plate 2, and the second is fixed to the strain gauge 15; a strain gauge sensor 15 mounted between the lower fixed plate 3 and the device 13 and connected to an analog-to-digital converter 16, which in turn is connected to a personal computer 17 installed with the possibility of processing data from the analog-to-digital converter 16.

According to the second variant, the bench for static tests of composite materials contains a frame 1, an upper movable plate 2 fixed to the vertical loading mechanism 4, a lower fixed plate 3 rigidly fixed to the frame 1, the vertical loading mechanism 4 is made in the form of a screw-nut interface 5-6 , and is installed on the frame 1 through the sleeve 7, and the nut 6 is installed in the sleeve 7 and weights 8 installed on the screw 5 of the vertical loading mechanism 4; the guiding mechanism 9 is mounted on the upper movable plate 2 and on the frame through the bushings 10, the displacement meter 11 is installed in the bracket 12, which is mounted on the frame 1, the device 13 for installing a sample of composite multilayer material 14 consisting of two parts, one of which is mounted on the upper movable plate 2, and the second is mounted on the strain gauge sensor 15; a strain gauge sensor 15 mounted between the lower fixed plate 3 and the device 13 and connected to an analog-to-digital converter 16, which in turn is connected to a personal computer 17 installed with the possibility of processing data from the analog-to-digital converter 16.

The stand according to the first option works as follows. Between the upper movable plate 2 and the fixed lower plate 3, a specimen made of composite material 14 is mounted and fixed to the device 13. When the screw 5 is rotated, the upper movable plate 2 moves strictly in the vertical direction due to the guiding mechanism 9, while the vertical loading mechanism 4 allows creating a static force of a compressive or tensile nature acting on the sample 14, depending on which side the screw 5 of the mechanism 4 rotates, while compressing or stretching the sample 14, which is recorded by the displacement meter 11, and the force acting on the sample 14 is recorded by the strain gauge 15 in the form of a signal , which is transmitted to the analog-to-digital Converter 16, then the received data is transmitted to a personal computer 17 for processing.

The stand according to the second option works as follows. Between the upper movable plate 2 and the fixed lower plate 3, a specimen made of composite material 14 is mounted and fixed to the fixture 13. When weights 8 are mounted on the screw 5, the vertical loading mechanism 4 moves strictly in the vertical direction due to the guiding mechanism 9, which creates a static force that compresses the sample 14, the compression value is recorded by the displacement meter 11, and the force acting on the sample 14 is recorded by the strain gauge 15 in the form of a signal that is transmitted to the analog-to-digital converter 16, then the received data is transmitted to a personal computer 17 for processing.

Claims (2)

1. A bench for static testing of composite materials, comprising a frame, an upper movable plate fixed to the loading mechanism, a lower fixed plate rigidly fixed to the frame, a vertical loading mechanism made in the form of a screw-nut interface, a guide mechanism mounted on the upper movable plate and on the frame through the bushings, the displacement meter is mounted in a bracket that is mounted on the frame, the strain gauge is mounted and rigidly mounted on the lower fixed plate, characterized in that it further comprises a device for mounting a sample of composite multilayer material, consisting of two parts, one of which are fixed on the upper movable plate, and the second is fixed on the strain gauge; the vertical loading mechanism is mounted on the frame through the sleeve, and the nut is fixed in the sleeve by fixing bolts; a strain gauge mounted between the lower fixed plate and the device is connected to an analog-to-digital converter, which in turn is connected to a personal computer installed with the ability to process data from an analog-to-digital converter. 2. A bench for static testing of composite materials, comprising a frame, an upper movable plate fixed to the loading mechanism, a lower fixed plate rigidly fixed to the frame, a vertical loading mechanism made in the form of a screw-nut interface, a guide mechanism mounted on the upper movable plate and on the frame through the bushings, the displacement meter is mounted in a bracket that is mounted on the frame, the strain gauge is mounted and rigidly mounted on the lower fixed plate, characterized in that it further comprises a device for mounting a sample of composite multilayer material, consisting of two parts, one of which are fixed on the upper movable plate, and the second is fixed on the strain gauge; the vertical loading mechanism is installed on the frame through the sleeve, and the nut is installed in the sleeve, the loads are installed on the screw of the loading mechanism; a strain gauge sensor is fixed between the lower fixed plate and the device and is connected to an analog-to-digital converter, which in turn is connected to a personal computer installed with the ability to process data from an analog-to-digital converter.

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