SU1224665A1 - Installation for complex stressed state fatigue test - Google Patents

Abstract

The invention relates to the study of the strength properties of materials. The purpose of the invention is to expand the functionality of the installation. The installation contains two engines and two levers, one ends of which are rigidly connected to the shaft, respectively. The other end of the first lever is connected to the sample grip, and the other end of the second lever is pivotally connected to an electromagnet, the measles of which is connected to the second clip. When rotating the shafts of engines that have counter-directed steep moments, are mounted non-axially, the measles move relative to the electromagnet, while loading the sample with variable axial and bending loads. I il.

Description

The invention relates to the study of the strength properties of materials, in particular, to installations for fatigue tests under complex stress conditions and can be used to test samples of materials under the combined action of cyclic axial and bending loads.

The purpose of the invention is to enhance the functionality of the installation by providing tests under variable axial and bending loads.

The drawing shows the proposed installation.

The installation contains grippers 1 and 2 for test sample 3, two engines 4 and 5 of different power with parallel shafts 6 and 7, having oppositely directed torques, two levers 8 and 9, one ends of which are rigidly connected to shafts 6 and 7 The corresponding engine 4 or 5, the other end of the lever 8 is connected to one gripper 2 of the test sample 3, and the other end of the second lever 9 is connected to a device for load conversion made in the form of a hinge connected to the second lever 9 by means of an axis 10 electromagnet And, measles 12 which is connected With the second grip 1. The levers 8 and 9 are equipped with balancing counterweights 13 and 14. The engines 4 and 5 are mounted on the base 15 with the possibility of changing the distance between their points 6 and 7 by means of the screws 16 and 7.

The installation works as follows.

When electric current is applied to the electromagnet 11, depending on the relative position of the electromagnet II and the core 12, a tensile or compressive force is applied to the sample 3. Engaged engines 4 and 5, having oppositely directed torques, a more powerful engine, for example 4, rotates the levers 8 and 9, and a less powerful engine, for example 5, creates resistance to the rotation of the levers 8 and 9,

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causing a constant component of the bending load on the sample 3. Due to the coldness of the shafts 6 and 7, as they rotate, the electromagnet 11 and the core 12 displace each other, which leads to the emergence of variable components of the axial and bending loads. ,

During the test, by changing the power supply current of the electromagnet 1, the constant component of the axial load may change. By varying the supply current of the motors 4 and 5, it is possible to change the constant component of the bending load, and by changing the distance between the shafts 6 and 7 with the help of screws I6 and 7, the amplitudes of the variable components of the axial and bending loads can be changed. The magnitude of the amplitude of the load can be adjusted by appropriate selection of the length of the arms B and 9.

Claims (1)

Invention Formula Fatigue test facility for complex stress state, containing grippers of the test specimen, two motors with parallel shafts, a device for converting the load, two levers, one ends of which are connected to the shaft of the corresponding engine, the other end of the first lever is connected one grip of the test sample, and the other end of the second lever with a device for converting the load, which is connected to another sample grip, characterized in that, in order to expand the functionality of the mouth By providing tests with variable axial and bending loads, the motors have different power and oppositely directed torques, the device for load conversion is 33 volts: the armature of the hinged electromagnet connected to the second arm, the bark of which is connected to the second gripper, and the connection of each lever with the corresponding shaft made tough. at