SU1587386A1 - Installation for testing samples of materials - Google Patents

Abstract

The invention relates to a testing technique and, in particular, to testing for strength. The purpose of the invention is to enhance the functionality by creating axial loading of additional samples along with bulk loading of the main sample while increasing productivity by simultaneously testing several samples. The main sample 7 is installed in the grippers 6 connected through the pushers 8 with the additional grippers 9, 10 and the rods of the force-actuators 2-5. The test program is set using clamps 13, 14: loading the main sample, loading additional samples, joint loading of the main and additional samples . 1 il.

Description

The invention relates to testing equipment, in particular to strength tests.

The purpose of the invention is the expansion of functionality by creating axial loading of additional samples along with volumetric loading of the main sample while increasing productivity due to the simultaneous testing of several samples.

The drawing shows the installation diagram.

The installation comprises a frame 1, a pair of coaxial hydraulic force activators 2, 3 and 4, 5 (the third pair is not visible) fixed to it in mutually perpendicular directions and grippers 6 for sample 7 connected with force exciters.

The installation is equipped with pushers 8 connected to grippers 6, additional pairs of grippers 9 and 10 for additional samples 11, one of each pair 9 of which is mounted on the pusher 8, the other 10 - on the rod 12 of exciters, clamps 13 of pushers on exciters and clamps 14 of exciters on frame 1. Corresponding rods, pushers and grips are made coaxial to each other.

The latches 13 and 14 are electromagnetic and mounted on the supporting sleeve 15, and the sleeve 15 is mounted on the rod 12, and the magnets are fixed on it. Power exciters work with the pumping station 16 with valves 17 and 18. On the frame there are guides for moving the bushings 15, with which the magnets of the clamps 14 interact.

Installation works as follows.

The latches 13 are turned on and with the latches 14 turned off, by means of the pumping station, open valves 17 and hydraulic exciters, the sample 7 is loaded with a bulk load. Moreover, in the piston cavities of hydraulic cylinders 2–5, the energy of the compressed fluid is accumulated, which is the energy of the loading system. With increasing levels of loading along the axes of loading to destructive, the sample is destroyed with the participation of the energy of the loading system, i.e. energy is exchanged between the installation and the body-loaded sample. If, at the moment of reaching the ultimate strength, the latches 14 are turned on, then this cuts off the energy supply from the system to the sample and destruction occurs only due to the energy on the sample itself.

To realize energy exchange between a volume-loaded sample 7 and non-loaded samples And after reaching a predetermined stress state on the sample 7, the clamps 14 are turned on, which excludes the access of the system energy to the exchanging samples, and then the clamps 13 are turned off alternately or simultaneously, depending on the test task. this pushers 8 under the action of the energy of elastic recovery of the sample 7 along the corresponding axes of its deformation move and load the samples 11 with axial force.

To implement this type of energy exchange, but with the participation of the system’s energy with its realization simultaneously with the energy of sample 7 or at another stage of energy exchange, the latches 14 are turned off. In this case, the energy stored in the under-piston cavity of cylinders 2–5 goes to the energy-exchanging samples and contributes to the process of deformation and fracture of samples.

The type of stress state, the load levels along the axes of loading of the sample 7, the order of loading of the samples 11, the amount of energy on the system are set by the conditions of a real energy exchange scheme, for example, mine conditions. From the same conditions, samples are selected according to their strength and cross sections.

Claims (1)

Claim Installation for testing samples of materials containing a frame installed on it in mutually perpendicular directions of a pair of coaxial force actuators with rods and associated with the latter and coaxial specimens for the sample, characterized in that, in order to extend the functionality by creating axial loading of additional samples along with volumetric loading of the main sample while increasing productivity due to simultaneous testing of several samples; the installation is equipped with coaxially corresponding There are pushers and additional pairs of grippers for additional samples that are installed between the corresponding grippers of the main sample and the rods of the force-exciters in such a way that each pusher is connected at one end with a corresponding gripper of the main sample and the other grips each pair is associated with the corresponding actuator rods, pushrod clamps installed on the rods of the respective force carriers bumpers, and retainers of energizers installed on the frame.