SU1504550A1 - Method of producing specimen testing installation - Google Patents

Abstract

The invention relates to testing equipment, to installations for testing samples of materials for strength. The purpose of the invention is to expand the functionality by providing a study of energy consumption with alternate loading on mutually perpendicular axes of not only stationary, but also moving in the direction of the applied sample load. Four cylinders 3-6 are installed at the corners of the rectangular support frame 1, the rods 8 of which are designed to interact with sample 10, and four anvils 11-14. When alternately connecting the working cavities of cylinders 3-6 to the accumulator 15, sample 10 moves along the sides of the frame before interacting with the corresponding anvils and at the end of each section of the track, it is loaded with force when consumed from the battery. Then, a new portion of energy is stored in the battery and the sample is moved, with its loading in a direction perpendicular to the previous one. The tests are carried out with different loading parameters, and the number of cycles to failure, the work of destruction and the nature of the destruction are determined, which makes it possible to investigate the ability of various materials to absorb energy when the specimen moves in the direction of loading with alternating changes in direction. 1 il.

Description

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The invention relates to testing equipment, in particular, to installations for testing samples of materials for strength.

The purpose of the invention is to expand the functionality by ensuring the study of energy consumption in case of alternate loading along mutually perpendicular axes of not only stationary, but also reloading in the direction of the applied sample load.

The drawing shows an installation setup for testing a material sample.

The installation comprises a rectangular support frame 1, in the corners of cavity 2 of which four hydraulic cylinders 3-6 are placed with pistons 7 and rods 8. Grips 9 for sample 10 are connected by 31504

from the rod 1 and hydraulic cylinders, made in the form of pushers, four anvils 11–14 are installed in the corners of cavity 2 of the frame so that the axes of the adjacent anvils are mutually perpendicular and parallel to the corresponding sides of the frame, and each hydraulic cylinder is installed in the corresponding corner of the frame coaxially oppositely anchored anvil. The battery 15 through the distributor 16 is connected alternately to the working cavity of the hydraulic cylinders 3-6. The valve 17 provides alternate connection of the working cavities of the cylinders 3 - 6 with a drain. In the cylinders 3-6 installed springs 18 to return the rod 8 and to its original position.

The installation works in the following way.

A specified portion of energy is stored in the battery 15 and the hydraulic cylinder 3 is connected to the power source 15 by the distributor 16. The rod 8 of the hydraulic cylinder 3 pushes the sample 10 to move the sample 10 in the direction of the anvil 12 until the sample interacts with the anvil, loading the sample in the direction of his move. A new portion of energy is stored in the accumulator 15 and, through the distributor 16, is connected to the accumulator hydraulic cylinder 4, while simultaneously connecting the hydraulic cylinder 3 with the drain line via the distributor 17. The sample moves in the direction of the anvil 13 and the end of the movement is loaded with force directed along the path of movement. Then the same loads are carried out by a hydraulic cylinder 5 with an anvil 14 and a hydraulic cylinder 6 with an anvil 11. At 5T, the loading cycle is terminated.

The next loading cycle is carried out at new values of the input energy, at new time intervals between loads. In the course of the experiment, the rates of movement of the grippers, the loading diagrams of the sample in different directions, the magnitudes of the initial and final energy on the loading system are recorded, and

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condition of the sample material. Testing at various loading parameters and comparing the loading parameters with test results (number of cycles before destruction, work of discharging, nature of destruction), investigates the ability of various materials and products to absorb when moving the product or sample in the direction of loading p

The installation allows a more complete study of the mechanism of energy consumption with alternate loading of the sample in mutually perpendicular directions by taking into account the inertial forces that occur when the sample is moved in the direction of the applied load.

Claims (1)

Invention Formula An installation for testing a material sample containing a support frame with a rectangular internal cavity, four hydraulic cylinders placed on it, specimen grips connected to the rods of the respective hydraulic cylinders, and a source of pressure of the working fluid connected through hydraulic distributors to the working cavities of the hydraulic cylinders, characterized by that, in order to extend the functionality by providing a study of energy consumption under alternate loading along mutually perpendicular axes, not only but the sample moving in the direction of the applied load, each grip is made in the form of a pusher and installed at the vertex of the corresponding internal frame angle with the possibility of sliding along the adjacent surface, the axis of the adjacent grips are mutually perpendicular, the installation is equipped with four anvils, each of which is fixed on the frame coaxially opposite grip so that the surface of the anvil, facing the opposite grip, coincides with the surface of the internal cavity of the frame, the axis of the grips and nak The oval is located in the same plane, and the pressure source is made in the form of a battery. Compiled by B. Gukov Editor M. Tsitkina Tehred M. Morgeal Corrector M. Vasilyeva, Order 5245/44 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 Production and Publishing Combine Patent, Uzhgorod, st. Gagarin, 101 LI Subscription