RU2498264C2 - Test setup of material specimens at complex cyclic loading - Google Patents

Abstract

FIELD: test equipment.

SUBSTANCE: setup includes a base, specimen grips installed on it, a pusher connected to one of the grips, and a back-and-forth pusher movement actuator. The setup has a support fixed on the second grip, and a removable limit stop installed eccentrically to the grips with possibility of interaction with the support, a rotating platform installed coaxially to the grips, and a platform rotation actuator; with that, the limit stop is installed on the platform, and the support is made in the form of a disc.

EFFECT: increasing informativity of investigations by providing tests at an axial load, jointly axial and torsional loads, jointly axial and bending loads, jointly axial, bending and torsional loads with possibility of cyclic change of torsional load.

3 cl, 1 dwg

Description

The invention relates to testing equipment, to strength tests.

A known installation for mechanical testing of samples under cyclic loading (RF patent No. 1504564, class G01N 3/32, 1990), containing a base, sample grips mounted on it, a pusher associated with one of the grips, and a reciprocating drive of the pusher.

The disadvantage of the installation is the lack of testing under axial load, jointly axial and torsional loads, jointly axial and bending loads, jointly axial, bending and torsional loads with the possibility of cyclical changes in the torsional load.

A known installation for mechanical testing of samples under cyclic loading (RF patent No. 1590956, class G01N 3/34, 1990), containing a base, sample grips mounted on it, a pusher associated with one of the grips, and a reciprocating drive of the pusher.

The disadvantage of the installation also lies in the lack of testing under axial load, jointly axial and torsional loads, jointly axial and bending loads, jointly axial, bending and torsional loads with the possibility of cyclical changes in the torsional load.

A known installation for mechanical testing of samples under cyclic loading (RF patent No. 2047147, CL G01N 3/34, 1993), taken as a prototype. The installation comprises a base, sample grips installed on it, a pusher associated with one of the grips, and a reciprocating drive of the pusher.

The disadvantage of the installation also lies in the lack of testing under axial load, jointly axial and torsional loads, jointly axial and bending loads, jointly axial, bending and torsional loads with the possibility of cyclical changes in the torsional load. This limits the information content of cyclic testing of samples of materials.

The technical result of the invention is to increase the information content of research by providing tests under axial load, jointly axial and torsional loads, jointly axial and bending loads, together axial, bending and torsional loads with the possibility of cyclical changes in the torsional load.

The technical result is achieved in that the installation for testing samples of materials under complex cyclic loading, containing a base, sample grips installed on it, a pusher associated with one of the grips, and a reciprocating drive of the pusher, according to the invention, it has a support mounted on the second grip, and a removable stop mounted eccentrically to the grippers with the possibility of interaction with the support.

The technical result is also achieved by the fact that it has a rotation platform mounted coaxially to the grips, and a platform rotation drive, the emphasis being mounted on the platform, and the support made in the form of a disk.

The technical result is also achieved in that the emphasis is made in the form of a roller mounted with the ability to change the position of the rolling plane relative to the axis of the platform.

The technical result is also achieved by the fact that the installation has a roller rotation drive, while the axis of rotation of the drive is perpendicular to the axis of rotation of the roller.

Figure 1 presents the installation diagram.

Installation for testing samples of materials with complex cyclic loading contains a base 1, mounted on it captures 2,3 of sample 4, a pusher 5 associated with one of the captures 2, and a drive 6 of the reciprocating movement of the pusher.

The installation has a support 7, mounted on the second grip 3, and a removable stop 8, mounted eccentrically to the grippers 2,3 with the possibility of interaction with the support 7.

The installation has a rotation platform 9 mounted coaxially to the grippers, and a platform rotation drive 10, with a stop 8 mounted on the platform, and the support 7 made in the form of a disk.

The stop 8 is made in the form of a roller mounted with the ability to change the position of the rolling plane AA relative to the axis O-O of the platform.

The installation has a drive rotation 11 of the roller, while the axis BB rotation of the drive is perpendicular to the axis BB rotation of the roller 8.

The drive for moving the pusher is made in the form of a slider 6 with an eccentric 12 and an eccentric rotation drive 13. The pusher 5 together with the drive 6 of its movement is placed on the site 14, installed with the possibility of movement along the direction of movement of the pusher. The position of the platform 14 is fixed by the latch 15. Between the pusher and the grip can be installed spring 16. The position of the roller 8 and the possibility of its removal is realized by screw 17.

Installation works as follows.

The drive 13 is turned on and the eccentric 12 is rotated, as a result of which the slider 6 moves the pusher 5 and cyclically loads the sample 4 through the spring 16 and the grippers 2,3. In this case, the stop 8 is not used to load the sample 4 with axial loads; fixed platform 9. For loading the sample with torsional axial load, turn on the drive 10, rotate the platform 9, the gripper 3 through the support 7 interacts with the rotating platform 9 and the torque is created due to friction between the platform 9 and the support 7. For loading the sample, the the stop 8 is installed and the bending loads are set and the tests are carried out with the drive 10 turned off. The bending component is created by the interaction of the support 7 with the stop 8 eccentrically positioned relative to the grips. To load the specimen with axial, bending and torque loads, the tests are carried out with the drive 10 turned on. An additional torque component is created the friction of the stop 8 against the support 7. For loading the sample with axial, bending and torsional loads with a cyclic change in the magnitude of the torque load, an emphasis is used in the form the roller and the drive 11 rotate the roller around the axis BB of rotation of the drive. In the position of the roller 8, shown in figa, the torque component is minimal, since the roller interacts with the support 7 through rolling friction; in the position of the roller shown in Fig. 16, the twisting component is maximum, since the roller interacts with the support 7 through sliding friction; in the intermediate position of the roller, shown in figv, the torque component cyclically changes from maximum to minimum value as the roller 8. Turns. To change the overall level of loads, move the platform 14 with the elements placed on it and fix its position with the latch 15, as a result of which changes the degree of deformation of the spring 16.

The installation increases the information content of research due to testing under complex cyclic loading in new conditions - under axial load, jointly axial and torsional loads, jointly axial and bending loads, together axial, bending and torsional loads with the possibility of cyclical changes in the torsional load.

Claims (3)

1. Installation for testing samples of materials under complex cyclic loading, containing a base, sample grips installed on it, a pusher associated with one of the grippers, and a reciprocating drive of the pusher, characterized in that it has a support mounted on the second gripper, and a removable stop mounted eccentrically to the grippers with the possibility of interaction with the support, a rotation platform mounted coaxially to the grippers, and a platform rotation drive, wherein the support is mounted on the platform, and the support is made in the form of a disk. 2. Installation according to claim 1, characterized in that the emphasis is made in the form of a roller mounted with the possibility of changing the position of the rolling plane relative to the axis of the platform. 3. The installation according to claim 2, characterized in that it has a roller rotation drive, wherein the axis of rotation of the drive is perpendicular to the axis of rotation of the roller.