SU1308875A1 - Method of faticue tessting of materials - Google Patents

Abstract

The invention relates to testing equipment, in particular to installations for testing products such as fatigue springs. The purpose of the invention is to enhance the functionality of the installation by providing joint tensile and bending tests with adjustable multi-peak cycles. On the base 1 is installed in the grippers 4 and 6 spring. The gripper 4 is connected to the ends of the flexible m r 7 and 8, encompassing removable blocks 9, mounted on the area. The second ends of tg 7 and 8 are connected to base 1. In the plane of the blocks 9, crank 2 is installed with rollers 10 at the end interacting with the rods. When the crank 2 rotates, at each revolution multiple tension r 7 and 8 occurs, which causes stretching and bending of the spring 5. 1 sludge. with (L

Description

The invention relates to a testing technique, in particular, to a device for testing spring-like products for fatigue.

The purpose of the invention is to enhance the functionality of the installation by providing joint tensile and bending tests with adjustable multi-peak cycles. The drawing shows a setup for fatigue testing.

The installation contains a base 1, a crank cyclic load exciter, which includes a crank 2 with a drive 3 of its rotation, an active gripper 4 for the test object 5, for example a spring. The active gripper 4 is connected to crank 2, the passive gripper 6 is connected to the base 1.

The plant is equipped with two flexible rods 7 and 8, connected to the active gripper 4 and around the circumference in the plane of rotation of the crank mounted on the base 1, removable blocks 9. The crank 2 is filled with rollers 10 at the end. One of the ends of each of t g 7 and b is connected to active grip 4 so that one of the t g is connected to the active grip along the axis of the grip, and the other one of the g to t is perpendicular to it. The other end of each of t g 7 and 8 is connected to base 1 at points 11 and 12.

For static stretching of the test object, for example, to control its rigidity, the installation is equipped with a screw press consisting of a screw 13 with a fork, forked in plan, 14, moved in the direction of the gripper 4, and a load cell 15. A screw device is provided to move the passive gripper sixteen.

The installation works as follows.

The test product in the form of a spring 5 is placed between the active 4 and passive 6 grippers. Blocks 9 are placed around the circumference, the number of which is determined by the required number of peaks in the spring loading cycle.

They are fixed at points 11 and 12 tons gi 7 and 8 and enclose blocks 9 with them, attaching the remaining ends to the active g, two covering the corresponding grip 4, respectively, along and perpendicular to the axis. When the crank 2 rotates, the tension r 7 and 8 occurs when the crank block passes the spraying blocks with flexible rods, one end of each of which is fixed on the base, the other is attached to the active gripper and is located at one rod

five

0

five

0

five

linear sections of t g, which causes respectively stretching and bending of the spring 5.

Thus, the number of installed blocks determines the number of peaks of stretching and bending in each load cycle, which may be different for axial and bending loads, since the strands 7 and 8 may cover a different number of blocks 9. Dpina straight sections determine maximum deformation in the corresponding peak of loading, and, consequently, load. The frequency of cyclic loading is determined by the frequency of rotation of the crank pin.

If it is necessary to stretch the spring 5, for example, in order to control its rigidity, the installation is stopped, the connecting rods 7 and 8 are disconnected from the claw 4, the fork yoke is under it and the screw 13 deforms the spring, while measuring the force using a load cell 15 Then, fixing the grip 4 on the force meter 15, rotating the screw 16 bends the spring 5 and measures the created force with the help of the load meter 15, after which you can, by returning the unit to its working condition, continue the tests.

I

Claims (1)

Invention Formula 0 An installation for testing materials for fatigue, containing a mechanism for static stretching, coaxially passive and active grips of a sample of a material, associated with active seizure, a cyclic loading agent, including a crank with its rotation drive, and a base on which a passive grip is installed characterized in that, in order to extend the functionality by providing joint tensile and bending tests with adjustable multi-peak cycles, it is equipped with removable blocks installed in ol situated in the plane of the crank circle whose center lies on the axis of its vrasche0 neither, two flexible bars covering the corresponding blocks, one end of each of which is fixed on the base, the other is attached to the active grip and is located at one pull 313088754 perpendicular to the axis of the grippers, and at the end there are two rollers, the interactions of the other - along this axis, and cranks with the corresponding rods.