SU1675729A1 - Stand for dynamic testing of material specimens - Google Patents

Abstract

The invention relates to stands for the dynamic testing of material samples. The purpose of the invention is to enhance the functionality by providing tests for both symmetrical and asymmetrical alternating bending. The installation contains a base 1 with flywheels 2, a rod 5, grippers 6.7 for sample 8, an anvil 9. For testing in asymmetric bending, the installation has two guides 10.11 and regulators 12 their positions. When the flywheels 2 are rotated, the rod 5 moves in the direction of the anvil 9, the pusher 16 interacts with the guides 10, 11 and, through the springs 17, loads the sample 8 by alternating bending and axial load. The symmetry of the loading cycles is governed by the position of the guides 10, 11. Upon impact with the anvil 9, a shock destruction of the specimen takes place. When using the clamp 13 and the latches 15, a preliminary cyclic loading is performed with alternating loads of bending. It is used in testing samples of various materials. I h. the item of f-ly, I ill. "YOUH VI VI VI YOU

Description

The invention relates to testing equipment, to installations for testing samples of materials and products for impact strength.

The purpose of the invention is to expand the functionality of the installation by providing tests for both symmetrical and asymmetric alternating bending of the sample.

The drawing shows the scheme of the proposed installation, a general view.

The installation comprises a base 1, a loader in the form of two flywheels 2 with the same eccentricity with respect to the rotation axis 3 connected to the rotational drive 4, the rod 5 connected kinematically with the flywheels 2, two coaxial grippers 6, 7 for sample 8, the first of which (6) is mounted on a highlander rod 5, an anvil 9, mounted on the base 1 and intended to interact with the second gripper 7.

The installation is equipped with two guides 10, installed along the direction of movement of the rod 5 on both sides of its axis, and the regulators 12 of the position of the guides, while the second gripper 7 is installed with the possibility of interaction with the guides 10 and 11,

In addition, the installation is equipped with a retainer 13 for axial movement of the rod, two collars 14 mounted on the respective flywheels with the possibility of independent rotation and kinematically connected with the rod 5, and latches 15 for connecting the flywheels 2 with the collars 14.

The engagement of the gripper 7 with the guides 10.11 is carried out by means of the pusher 16 with the springs 17 moving along the guides. The kinematic connection of the boom 5 with the clips is carried out by means of the push rods 18 with the springs 19 and the adjusters 20 preloaded springs. The latch 13 of the movement of the rod is made in the form of the core and the coil 21. The latch 15 is made of electromagnetic.

The installation works as follows.

For tests with cyclic alternating bending loads of sample 8, the clamps 15 are turned off, the clamp 13 is turned on, and the drive 4 is turned on. When the flywheels 2 rotate, the rod 5 with the sample 8 reciprocates in the direction perpendicular to the axis of the rod. The pusher 16 by means of springs 17 and guides 10, 11 loads the sample with 8 alternating bending forces in symmetrical or

asymmetrical cycles depending on the location of the guides 10, 11 relative to the average position of the rod and the stiffness of the springs. After reaching

a given number of loading cycles, axial and bending loads are loaded, for which the latch 13 is turned off and the clamps 15 are turned off. The rod 5 with the sample 8 starts the axial movement from

displacements in the perpendicular direction. The pusher 16, when interacting with guides 10, 11 by means of springs 17, creates alternating bending loads (symmetrical or asymmetrical with a varying degree of asymmetry with an inclined arrangement of guides or with a constant asymmetry when positioning guides parallel to the rod) and axial loads for

by varying the resistance to the axial movement of the rod at different forces of interaction of the pusher with the guides. At the end of the boom movement path, a grip 7 against anvil 9 and a impact destruction of the specimen 8 occur.

The use of the facility allows extending the modes of testing samples of materials for impact destruction with preliminary processing of the sample axial and

bending cycles with symmetric or asymmetric load changes, which is not feasible on the well-known test benches. This makes it possible to reproduce on the installation more complex real regimes of power work.

Claims (2)

1. Stand for dynamic tests, samples of materials, containing the base, located on it the loader in the form of two flywheels installed with the same eccentricity, the associated rotational drive and kinematically flywheel rods, two coaxially gripping specimens, the first of which is fixed to the end of the boom, and an anvil fixed to the base and designed to interact with the second gripper, characterized in that, in order to extend the functionality of the installation by providing tests like symmetric and asymmetric alternating bending the sample, the installation is equipped with two guides mounted on both sides of the rod, and a tilt angle adjuster of the guides relative to the axis of the rod, and the second gripper is installed with the ability to interact with the guides. 2. Stand according to claim 1, characterized by two clips installed each so that, in order to provide testing to the relevant flywheel, it is possible with additional loading of the rotational part relative to it and kinemac-alternating cyclic bending connected to the bar The installation is equipped with fiks-5 claws of the flywheels with respect to the axial movement of the rod and the corresponding clips.