RU2068993C1 - Installation for fatigue testing of samples - Google Patents

Abstract

FIELD: strength testing. SUBSTANCE: installation for fatigue testing of samples includes pusher 3 with drive 2 of levers 9, 10 with grippers 4, 5 locating arm 11, weights 7, 8. For shear loading of sample 6 locating arm 11 is switched off and drive 2 is set in motion. This creates mutual turns of grippers 4,5. EFFECT: expanded functional capabilities by provision of testing during loading both with axial and shear loads. 1 dwg

Description

 The invention relates to testing equipment, to strength tests.

 A known installation for testing samples for fatigue (USSR author's certificate, 1504560, class G 01 N 3/32, 1988), as well as an installation for testing samples for fatigue (positive decision on application 4917279/28, class G 01 N 3 / 32, 1992 /. The last installation contains a base, a reciprocating drive mounted on it, a pusher connected to the drive, sample grips associated with the pusher, inertial loads designed to interact with the grippers.

 The disadvantage of the installations is that they are not feasible tests when loading the sample by shear deformation.

 The aim of the invention is to expand the functionality of the installation by providing tests under loading both axial and shear loads.

 The goal is achieved in that the installation is equipped with two levers, each of which is connected at one end to a corresponding grip, and the other end is pivotally connected to the pusher, and a rotation lock of one of the levers on the pusher, while the axis of the grippers is parallel to the axis of the pusher.

 With this design of the installation with the latch on, the installation works as a prototype with axial loading of the sample. However, when the latch is on, the pusher is moved to create a mutual rotation of the grippers on the hinges with which they are connected to the pusher. This rotation with the parallel placement of the axes of the grippers and the pusher creates a new type of loading of the specimen — shear deformation, which is unattainable on the prototype and leads to the achievement of the goal.

 Known technical solution / positive decision on the application 481594/28, cl. C 01 3/34, 1990 /, in which a lever with a grip is used. The difference of the proposed solution is that they use the second lever, and both levers are connected to the pusher. This creates different effects: shock bending in a known solution, and a cyclic shift in the proposed solution. This proves the significance of the differences of the proposed solution.

 The figure shows the installation diagram.

 The installation comprises a base 1, a reciprocating drive 2 mounted on it, a pusher 3 connected to the drive0, grippers 4,5 for sample 6 connected with the pusher, and inertial loads 7, 8: designed to interact with grippers 4, 5.

 The installation is equipped with two levers 9, 10, each of which is connected at one end to a corresponding grip 4, 5, and the other end is pivotally connected to the pusher 3, and a latch 22 for turning one of the levers on the pusher, while the axis of the grippers 4, 5 is parallel to the axis pusher 3.

 The loads 7, 8 are interconnected by a thrust 12. The drive is made in the form of a rotation motor 2 with an eccentric 213 and a frame 14.

Installation works as follows;
The drive 2 is turned on and through the eccentric 13 and the frame 14 the pusher 3 is moved back and forth. When you turn on the latch 11, the lever 10 does not rotate relative to the pusher 3, the gripper 5 also has no rotation. This creates axial loading of the sample with 6 weights, 7, 8, when the ligament moves from right to left (according to the drawing) due to the possibility of turning the lever 9. When testing hard samples, these loads are close to pure compressive ones. For testing under the action of shear deformations, the latch 11 is turned off. From this moment, the grippers 4, 5 make cyclic rotations in opposite directions under the action of weights 7, 8, which gives shear loading of the sample.

 The setup provides testing under new conditions when loading a sample by shear deformations.

Claims (1)

 A fatigue testing system comprising a base, a reciprocating drive mounted on it, a pusher connected to the drive, sample grips and inertial loads associated with the grippers, characterized in that it is equipped with two levers, each of which is connected to one end capture, and another pivotally with a pusher, a rotation lock of one of the levers mounted on the pusher, while the axis of the grippers is parallel to the axis of the pusher.