SU1486856A1 - Centrifugal installation for testing specimens in two-dimensional strained condition - Google Patents

Description

The invention relates to test equipment. The purpose of the invention is to expand the range of load variation along the axes, not only depending on the amount of deformation of the sample along these axes, but in any ratio between them and with a change of sign. In the radial guides 4-7 of the rotating platform 2 are placed hydraulic cylinders 8-11 with pistons 14, 15, spring-loaded

the direction of their axes, and with the working medium in the piston and supra-piston cavities, the specific weight of which is less than the specific weight of the material of the pistons 12, 13. The bodies of hydraulic cylinders 8-11 by grippers 16-19 are connected with sample 20, and their piston and supercapsular cavities communicate with each other through valves 21. When the platform rotates, the sample 20 is loaded by the forces of inertia of the hydrocylinders. If the ratio between these forces needs to be changed, then open the corresponding valve. The corresponding piston, compressing the spring and moving the working medium from one cavity to another, moves away from the axis of rotation of platform 2. Therefore, the center of gravity of the corresponding hydraulic cylinder also moves away from the axis of rotation of platform 2 and leads to an increase in its inertia force. Thus, with the help of valves 51 change the ratio of the forces acting on the sample in different directions. 1 il.

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The invention relates to a testing technique, in particular to installations for testing samples of materials for strength at a flat stress state.

The purpose of the invention is to expand the range of load variation along the axes, not only depending on the magnitude of the specimen deformation along these axes, but in any ratio between them and with a change in sign.

The drawing shows the installation diagram, -, θ

The installation contains a base 1, mounted on the base 1 platform 2 with a drive 3 of its rotation, mounted on the platform 2 radial guides 4—

7, placed in the respective guides 4-7 with the ability to move hydraulic cylinders 8-11 double-acting with pistons 12, 13, spring-loaded springs 14, 15 in the direction of their axes, and with the working medium in the piston and over-piston cavities, the specific weight of which is less specific weight of the material of the pistons 12, 13, and the grippers 16-19 of sample 20 connected to the housings of the respective hydraulic cylinders 8-11, the piston and piston cavities of which are interconnected through the gates 21. 25

The installation works as follows.

The actuator 3 is turned on and the platform 2 is rotated. With an increase in the speed of rotation of the platform 2, the inertia forces of the hydraulic cylinders 8-11 increase and, through the grippers 16-19, load the sample 20. To change the ratio of forces acting on the sample, open the corresponding valve 2.1. Under pressure of a floating piston 12, for example, the working medium flows from the overpiston cavity to the piston and the piston, compressing the spring 14, moves away from the axis of rotation of the platform 2. As a result, the center of gravity, for example, of the hydraulic cylinder 8 is moved to a larger radius from the axis of rotation of the platform 2 and the force acting on the sample 20 in the direction of the axis of this hydraulic cylinder, increases compared with the inertia forces acting on the sample from other hydraulic cylinders. Thus, with the help of valves 21 change the ratio of forces acting on the sample in different directions.

If there is a need to reduce the difference in the forces acting on the sample 20 in different directions, then reduce the speed of rotation of the platform 2. With the valves 21 open, the elastic forces of the springs 14, 15 return the pistons to their original position, thereby comparing the locations of the centers of gravity of all hydraulic cylinders and their inertial forces acting on the sample 20.

Claims (1)

Claim A centrifugal unit for testing specimens in a flat stress state, containing a base, a platform mounted on it with a drive for its rotation, radial guides mounted on the platform, placed in guides with the possibility of moving double-acting hydraulic cylinders filled with working medium, and specimen grips, characterized in that , in order to expand the range of load variation along the axes, not only depending on the magnitude of the specimen deformation along these axes, but in any ratio and sign, in each hydraulic cylinder the piston is spring-loaded in the direction of its axis, the piston and over-piston cavities communicate with each other through a valve, the specific gravity of the working medium is less than the specific weight of the piston material, and the grips are connected with the housings of the respective hydraulic cylinders.