SK1082023A3 - Method of performing rotating bending fatigue test - Google Patents

Abstract

The device for carrying out the fatigue test by bending and rotating is based on the principle of computer-controlled cyclic loading and software evaluation of the measured values, it contains a frame (1) on which two jaws (2, 2') are fixed for attaching the test body (3), while the jaw (2, 2') is driven by a separate electric motor (4, 4') and their rotational movement is mutually synchronous.

Description

The invention relates to a device for carrying out a fatigue test by bending under rotation for test bodies of circular cross-section, in particular wires, in which the test body is repeatedly loaded and thereby simulates the behavior of the given material during normal use in a certain time range, with the aim of obtaining information about the mechanical properties of the material during loading and evaluation of the life of machine parts materials.

Current state of the art

From the current state of the art, methods and devices for performing the bending fatigue test are known, which consist in cyclic loading of the sample with a stress lower than the yield strength of the material, because material fatigue occurs in components that are stressed during operation by repeated loads lower than the yield strength of the material. but higher than the fatigue limit. We talk about material fatigue when the number of load cycles reaches hundreds of thousands, millions and more. In the case of components loaded in this way, a crack may subsequently appear, which slowly spreads until the component breaks, the so-called fatigue fracture, which is characterized by the fact that it is not preceded by any plastic deformation and the part cracks. Cracks appear in places of stress concentration, i.e. in places of notches. Fatigue tests are carried out on smooth test samples or samples with a notch, where a notch is any change in the cross-section and properties of the material, for example a notch, hole, thread, large surface roughness, weld, crack, deterioration of the material or another change in the properties of the material.

From the patent file CZ 304633 "Device for bending fatigue tests for testing test specimens with a notch, a device for performing a bending fatigue test is known, which, among other things, contains a guide sleeve for clamping the test specimen, which is placed in a cage, and in the guide sleeve is placed clamping sleeve for clamping the test specimen. A horizontal and vertical yoke is connected to the cage, which serves to monitor the course of the load in both load axes of movement with the frame of the device. The said file provides a completely different technical solution than the claimed invention.

From the utility model application CZ 2016-32591 "Preparation for multi-axial non-proportional loading in conditions of low-cycle fatigue" is a known solution that concerns the clamping of cylindrical samples for combined tension-torsion stress at room and elevated temperatures. The device includes a lower and an upper attachment, which allow the attachment of a cylindrical test specimen at one end, and attachment to the testing machine at the other end. The mentioned file provides a completely different technical solution from the claimed invention, as well as the patent file CZ 304633 "Preparation for fixing test samples in a testing device for contact fatigue tests of a material, which is intended for fixing test samples in a testing device for contact fatigue tests of a material." The device consists of a support and pressure ring, which ensure a mutually concentric fit and clamping in the direction of the axis of the support shaft. Both the bearing and the pressure ring are equipped with a system of regularly spaced semicircular beds around the perimeter, which create cylindrical cavities open from above for inserting test samples during the completion of the preparation.

From the utility model application CN212301150U "The microcomputer controls bending fatigue test bench of hydraulic pipeline member" is known the solution of using a microcontroller to control the oil pressure in the piston, which ensures the loading of the rotating test sample.

From the utility model application CN211740855U "Full-size marine pipeline resonance rotary bending fatigue testing machine" is a known device intended for carrying out a fatigue test under rotation for ship pipelines, when the vibrations of the tested sample are measured using a frequency controller during the rotation of the tested sample.

From the patent file CN101221108A "Rotating and bending corrosion fatigue testing device" is a known device for performing a fatigue test for rotating samples subject to corrosion. During the testing of the sample, the examined sample is rotated and at the same time a solution causing corrosion is applied using a pump and a nozzle.

Thus, current equipment adapted to perform a bend test typically consists of a motor, a drive spindle, and a support bearing. The examined sample, usually a rod, is placed between the drive spindle and the support bearing, while the sample is clamped on the drive spindle and, depending on the test, these bodies can be equipped with stress concentrators (notch, hole or mounting). The disadvantage of this solution is that the examined samples must be straight from the factory. In the case of testing, for example, a wire that is naturally in the shape of a circle from the factory and has a certain radius of curvature, it is necessary to straighten the wire first, then clamp it and test it. However, when straightening the wire, plastic deformation occurs and thus a fundamental change in the mechanical properties of the examined sample.

SK 108-2023 A3

The essence of the invention

The mentioned disadvantages are eliminated by the device for carrying out the fatigue test by bending while rotating, based on the principle of computer-controlled cyclic loading and software evaluation of the measured values, containing a frame on which two jaws are fixed for holding the test body, according to the present invention, the essence of which is that each the jaw is driven by a separate electric motor and their rotational movement is mutually synchronous.

It is expedient for the frame to consist of at least one fixed part and at least one movable part, the movable part being adapted to change position from vertical to horizontal.

Furthermore, it is expedient that the mutual angle of the vectors of the axes of the jaws is arbitrarily selectable in the range of 0° - 270°.

It is advantageous for the jaws to be adapted to change position along the clamping bar.

It is preferable that the equipment for carrying out the fatigue test by bending under rotation is equipped with a force sensor, and it is also advantageous that it is equipped with a sensor for detecting the fracture of the test body.

It is expedient that the device for carrying out the fatigue test by bending while rotating contains a connection with a computer, for the purpose of tracking, recording or subsequent calculation of the necessary quantities for determining material characteristics.

Overview of images on drawings

In picture no. 1 is a schematic representation of a device for performing a fatigue test by bending while rotating.

In picture no. 2 is the device shown in a side view, when the moving part, or the jaws are in a vertical position. In picture no. 3 shows the movement of the moving part of the frame and in picture no. 4 shows the location of the moving part of the frame, or jaws in a horizontal position.

In picture no. 5 shows a front view of the jaws in a horizontal position.

Examples of implementation of the invention

The device for carrying out the fatigue test by bending under rotation, based on the principle of computer-controlled cyclic loading and software evaluation of the measured values, contains a frame 1, on which two jaws 2, 2' are fixed for holding the test body 3, according to the invention, each jaw 2, 2' is driven by a separate electric motor 4, 4' and their rotational movement is mutually synchronous.

In a preferred embodiment, the frame 1 is formed by a fixed part 11 and a movable part 12, which are connected to each other, and the movable part 12 is adapted to be flipped from a vertical position to a horizontal position. Frame 1 is presented as an example of an aluminum or steel structure.

In a preferred embodiment, a clamping bar 13 is arranged on the frame 1, which enables the position of the clamping jaws 2, 2' to be changed.

For example, the clamping bar 13 is placed on the movable part 12 of the frame, and when the movable part 12 is tilted to the horizontal position, the operator is thus enabled to comfortably and safely clamp the test body 3 in the jaws 2, 2'.

The jaws 2, 2' can be moved on the clamping bar 13 in a horizontal axis and thus it is possible to change their mutual distance and it is also possible to change the angle that the jaws 2, 2' hold together.

The principle of testing on the present invention, the device for carrying out the fatigue test by bending during rotation takes place in such a way that the movable part of the frame 12 is flipped to a horizontal position. A test body 3 is clamped into the jaws 2, 2', for example a wire with a diameter of 0.90 mm, a test length of 230 mm, a modulus of elasticity E = 210,000 MPa is clamped.

The mutual angle of the jaws 2, 2' for testing is chosen to be 120°, while the size of the angle is chosen depending on the requirements of the test, or according to the specified test length of the wire.

The movable part 12 of the frame is then flipped into a vertical position in such a way that the axes of the jaws 2, 2', together with the clamped test body 3, point down, which eliminates the effect of gravitational force on the test body 3 and the influence of the test results obtained by unwanted lateral bending of the weight of the sample .

Then the device is lowered and the jaws 2, 2' begin to rotate synchronously and the test body 3 is rotated around its axis.

The course of the load of the test body 3 is measured by the force sensor 5, while these values are recorded by a computer with the necessary operating software, alternatively other quantities are determined from the obtained values.

SK 108-2023 A3

After reaching the fracture and its detection by the fracture detection sensor 6 and/or after reaching the required number of testing cycles, the device is automatically stopped immediately.

Industrial applicability

The equipment for carrying out the fatigue test by bending under rotation according to the present invention, based on the principle of computer-controlled cyclic loading and software evaluation of the measured values, can be used in testing laboratories and scientific workplaces performing destructive testing to obtain information about the mechanical properties of materials, especially wires.

SK 108-2023 A3

List of relative marks machine frame fixed part of machine frame movable part of machine frame clamping bar , 2' jaw test body , 4' electric motor force sensor fracture detection sensor

Claims (6)

1. A device for carrying out a fatigue test by bending while rotating, based on the principle of computer-controlled cyclic loading and software evaluation of measured values, containing a frame (1), on which two jaws (2, 2 ¹ ) are fixed for holding the test body (3), characterized by in that each jaw (2, 2 ¹ ) is driven by a separate electric motor (4, 4 ¹ ) and their rotational movement is mutually synchronous. 2. Device for carrying out a fatigue test by bending under rotation according to claim 1, characterized in that the frame (1) consists of at least one fixed part (11) and at least one movable part (12), while the movable part (12) is adapted to change of position from vertical to horizontal. 3. Device for carrying out a fatigue test by bending under rotation according to one of claims 1 or 2, characterized in that the mutual angle of the vectors of the axes of the jaws (2, 2') is arbitrarily selectable in the range of 0°-270°. 4. Device for carrying out a fatigue test by bending while rotating according to one of the claims 1 to 3, characterized in that the jaws (2, 2 ¹ ) are adapted to change the position along the clamping bar (13). 5. Device for carrying out a fatigue test by bending under rotation according to one of the claims 1 to 4, characterized in that it is equipped with a force sensor (5). 6. Device for carrying out a fatigue test by bending under rotation according to one of claims 1 to 5, characterized in that it is equipped with a sensor for detecting the fracture (6) of the test body (3).