SU1532846A1 - Apparatus for determining dynamic characteristics of materials - Google Patents

Abstract

The invention relates to the study of the mechanical properties of materials. The aim of the invention is to improve the accuracy. For this purpose, in an apparatus for determining the dynamic characteristics of materials comprising a grip base 3 for sample 4, an inertial element 6, rigidly associated with a grip 5 for fastening the sample under test, a device for compensating the weight of the inertial element and a grip 5 associated with the inertial element through the bearing 10 and including a counterweight, means of driving 8 and registering 9 torsional vibrations. The counterweight is made in the form of two weights 12, each of which is connected to the outer ring of the bearing 10 by means of a yarn 13, thrown over the block 11 mounted on the base. Running the counterweight in the form of two weights connected to the bearing by means of threads allows you to eliminate the inertia caused by the weight the element with the capture of axial stresses in the sample under study, without imposing a rigid connection on the inertial element with the capture, increases the coaxiality of the grips and the accuracy of the tests. 1 il.

Description

The invention relates to the study of the mechanical properties of materials, in particular, to installations for determining the dynamic characteristics of materials.

The aim of the invention is to improve.

The installation for determining the dynamic characteristics of materials operates as follows.

Sample 4 with the collet grip 3 is attached with the upper branches to the plate 2, and the lower end with the grip 5 is attached to the inertial element 6 having ferro ends. The drawing shows a diagram of the pre-jg magnetic tips 7 to determine the dynamic characteristics of materials.

j The installation for determining the dynamic characteristics of materials with torsional vibrations includes a housing I, in which a plate 2 is placed, with a gripper 3 for fastening the ends of winds of a U-shaped sample 4 of the material being blown. The second gripper 5 for test sample 4 is rigidly connected to the inertial element 6 with ferromagnetic nozzles 7 at the ends. Elements 8 and 9 of vibration excitation- 25 n and vibration recordings are located on housing 1 "On the inertial element 6 with gripper 5, the rolling pad 10 is mounted coaxially with grippers 5. The outer ring of the bearing 30 10 is symmetrically fixed relative to the axis of the gripper 5 and transferred through blocks 11 and St. Two threads connected with weights 12 13. The ends of the branches of the U-shaped sample 4 are connected to the current source 14 via the current lead 15. The installation in the installation for determining the dynamic characteristics of the counterweight material in the form of two weights 112 connected with inertial el coping through the bearing 10 by means of threads 11 thrown through the blocks 11, eliminates the occurrence of axial stresses in the sample under test, caused by the weight of inertial g5 Element 6 with grip 5, without imposing on the inertial element 6 with grip 5- hard coupling, which improves the coaxiality of the grips 3 and 5, and consequently, increases the accuracy of the tests.

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The torsional oscillations of sample 4 are excited. Two identical loads 12 are attached on threads 13 and their weight is equal to the gripping weight 5 of the inertial element 6 with ferromagnetic nozzles 7 and the bearing 10. The ends of the branches of sample 4 are connected to an adjustable current source 14 of the VRT-3 type through current leads 15 Heat the sample 4 by passing a current and, when it reaches a predetermined temperature, excite torsional oscillations, the amplitudes of which are measured using a vibration meter 9, determine the resonant oscillation frequency, which is used to calculate the dynamic modulus of elasticity of sample material 4.

Claims (1)

Invention Formula An installation for determining the dynamic characteristics of materials, comprising a gripping base for a test sample, an inertial element rigidly associated with a second gripper for a test sample. a device for compensating the weight and the second gripper connected to the inertial element through the bearing and including the counterweight, and means for exciting and recording torsional vibrations, characterized in that, in order to increase accuracy, the counterweight is made in the form of two symmetrically located about the axis of the grippers of the weights, each of which is connected to the outer ring of the bearing by means of a thread slung over a block mounted on the base. 5 0 5 0 about 5 five 0 The torsional oscillations of sample 4 are excited. Two identical loads 12 are attached on threads 13 and their weight is equal to the gripping weight 5 of the inertial element 6 with ferromagnetic nozzles 7 and the bearing 10. The ends of the branches of sample 4 are connected to an adjustable current source 14 of the VRT-3 type through current leads 15 Heat the sample 4 by passing a current and, when it reaches a predetermined temperature, excite torsional oscillations, the amplitudes of which are measured using a vibration meter 9, determine the resonant oscillation frequency, which is used to calculate the dynamic modulus of elasticity of sample material 4. Invention Formula An installation for determining the dynamic characteristics of materials, comprising a gripping base for a test sample, an inertial element rigidly associated with a second gripper for a test sample. a device for compensating the weight and the second gripper connected to the inertial element through the bearing and including the counterweight, and means for exciting and recording torsional vibrations, characterized in that, in order to increase accuracy, the counterweight is made in the form of two symmetrically located about the axis of the grippers of the weights, each of which is connected to the outer ring of the bearing by means of a thread slung over a block mounted on the base. Editor T. Parfenova Compiled by N. Yamshchikov Tehred M. Didyk Order 8092/49 Circulation 789 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 Proofreader M, Maksimishinets Subscription