SU862046A1 - Device for determination of specimen strength characteristics in bending - Google Patents

Description

The invention relates to the field of testing equipment. A device for determining the strength characteristics of specimens of bending specimens containing movable and fixed supports and a mechanism for moving movable supports 111 is known. A disadvantage of this device is its low accuracy in testing thin sheets, since the effect of its own weight of the specimen on its strength and deformation characteristics. The closest to the invention according to the technical essence and the achieved result is a device for determining the strength characteristics of specimens under bending, containing a frame, fixed and rotatable supports mounted on it, tacks for fastening a sample between their ends and a C2 load cell. low accuracy, especially when testing thin-sheet materials, as the strength characteristics of the samples when using this device are affected as Numbered deformirova uu speed depending on the magnitude of deflection and nonuniform contact forces arising in the sample and the supports during the test sample. The aim of the invention is to improve the accuracy in determining the characteristics of thin-sheet samples. To achieve this goal, the device is equipped with a sleeve mounted on a stationary support that can be rotated around its axis, the plates are fixed to the supports, the load cell is connected to the rotary support, and both supports are installed in such a way that the working ends of the plates lie in the plane passing through the axes. The bushings and the swivel bearing form a gap, the width of which is selected based on the condition of placing two thicknesses of the test specimen in it. FIG. 1 shows the proposed device, front view; in fig. 2, section A-A in FIG. 1. The device comprises a frame 1, a fixed support 2c mounted on the frame 1, a sleeve 3 mounted rotatably around an axis and a lining 4, and a rotary support 5 with a lining 6, with the ends of the support 5 placed in bearings 7 and 8, the load cell 9, one end of which is connected to the pivot bearing 5, and the second to frame 1. The supports 2 and 5 are mounted so that the ends 10 and 11 of the pads 4 and 6, between which the sample is placed, lie in the same plane passing through the axis of the sleeve 3 and pivot bearing 5, form a gap 12, the width of which is chosen from the condition placing in it two thicknesses of the test sample 13.

The device works as follows.

The thin-sheet sample 13 is placed at one end on a vertically mounted rotary support 5 and is fixed on support 5 with an overlay 6. Then the second end of sample 13 is passed under the overlay 4, which presses it against the sleeve 3. Sample 13 takes the form of a regular circular ring, since the working ends 10 and 11 of adjustments 4 and 6 lie in the same plane, and the distance between them (gap 12) does not exceed two thicknesses of the thin-sheet sample 13. After that, the change in force on the load cell 9 is recorded, i.e. stress relaxation curve, and the force arising in a thin-sheet specimen bent into a ring of a given diameter. After the relaxation process has ended at a given degree of deformation, the second end of sample 13 is pulled under the pad 4, reducing the diameter of the ring to a predetermined value, and the force change is recorded again. Since the sleeve 3 is rotatably mounted, the process of reducing the diameter by pulling the sample under the patch 6 takes place with little effort.

The device makes it possible to determine the strength characteristics of the samples during bending with a high degree of accuracy, since the influence of the own weight on the measured values is eliminated, ensuring uniform sample deformation and there are no contact forces between the sample and the device elements in the working area.

Claims (2)

Invention Formula A device for determining the strength characteristics of specimens under bending, containing a frame, fixed and rotary supports installed on it, lining for fastening the specimen between their ends, and a load cell, characterized in that, in order to improve the accuracy in determining the characteristics of thin-sheet specimens, it is fitted with a sleeve installed on the fixed support can be rotated around its axis, the covers are fixed to the supports, the force-meter is connected to the rotary support, and both supports are installed in such a way that the ends are inclined docking lie in a plane passing through the axis of the sleeve and the rotary bearing and form a gap, the width of which is selected from the conditions accommodating a two sample thicknesses. Sources of information taken into account in the examination 1. Strain gauges in mechanical engineering. M., Mechanical Engineering, 1975, p. 92 2. MOSKOVKIN A.I. et al. Instrument for determining the frost resistance of rubber-fabric materials, N., Rubber and Rubber, 1973, No. 1, (prototype).