RU2427817C1 - Fatigue testing machine for material samples - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: machine has a base on which there is a housing on which there is an eccentric drive, a pusher connected to eccentric drive, two sample clamps, the first of which is connected to the pusher and a first inertial load connected to the second clamp. The machine has a second inertial load connected to the first clamp and locking members for connecting the loads to the pusher.

EFFECT: high volume of obtained information by testing during transition from sign-variable to constant-sign loads during single-cycle and two-cycle loading.

3 cl, 1 dwg

Description

The invention relates to testing equipment, to strength tests.

A known installation for testing fatigue of samples of materials (RF patent No. 1587403, class G01N 3/32, 1991), containing a base, a housing mounted on it, an eccentric drive placed on the housing, a pusher connected to the eccentric drive, two sample grips, the first of which is associated with the pusher, the first inertial load associated with the second capture.

The disadvantage of the installation is the lack of the ability to test during the transition from alternating to alternating loads under single-cycle and two-cycle loads.

A known installation for testing fatigue of samples of materials (RF patent No. 1672283, class G01N 3/32, 1991), containing a base, a housing mounted on it, an eccentric drive placed on the housing, a pusher connected to the eccentric drive, two sample grips, the first of which is associated with the pusher, the first inertial load associated with the second capture.

The disadvantage of the installation also lies in the lack of the possibility of testing during the transition from alternating to alternating loads under single-cycle and two-cycle loads.

A known installation for fatigue testing of samples of materials (RF patent No. 1753356, class G01N 3/34, 1992), taken as a prototype. The installation comprises a base, a housing mounted on it, an eccentric drive placed on the housing, a pusher connected to the eccentric drive, two sample grips, the first of which is connected to the pusher, and the first inertial load associated with the second gripper.

The disadvantage of the installation also lies in the lack of the possibility of testing during the transition from alternating to alternating loads under single-cycle and two-cycle loads. This significantly limits the amount of information during testing.

The technical result of the invention is to increase the amount of information obtained by testing during the transition from alternating to alternating loads under single-cycle and two-cycle loads.

The technical result is achieved by the fact that the installation for fatigue testing of material samples, containing a base, a housing mounted on it, an eccentric drive placed on the housing, a pusher connected to the eccentric drive, two sample grips, the first of which is connected to the pusher, the first inertial load, associated with the second grip, according to the invention, has a second inertial load associated with the first grip, and latches for connecting loads with a pusher.

The technical result is also achieved by the fact that the installation casing is made in the form of a platform with a drive turning it in a vertical plane.

The technical result is also achieved by the fact that it has additional inertial loads, clamps for their connection with the pusher and clamps for their connection with the first and second inertial loads.

Figure 1 presents the installation diagram.

The fatigue testing apparatus for samples of materials contains a base 1, a housing 2 mounted on it, an eccentric drive 3 placed on the housing, a pusher 4 connected to the eccentric drive 3, two grips 5, 6 of sample 7, the first of which 5 is connected to the pusher 4, the first inertial load 8 associated with the second grip 6.

The installation has a second inertial load 9 associated with the first grip 5, and latches 10, 11 for connecting loads 8, 9 with the pusher 4.

The housing 2 of the installation is made in the form of a platform with a drive 12 turning it in a vertical plane.

The installation has additional inertial loads 13, 14, latches 15, 16 for their connection with the pusher and latches 17, 18 for their connection with the first 8 and second 9 inertial loads.

The eccentric drive 3 has a motor 19. The pusher 4 moves on the housing 2 in the guides 20.

Installation works as follows.

To load the specimen 7 with alternating axial loads, the latches 17, 18 are connected and the weights 8, 13 and 9, 14 are connected in pairs, the latches 11, 16 are connected and one pair of weights 9, 14 is connected to the pusher 4. The motor 19 is turned on and the pusher is moved by an eccentric drive 3 4 reciprocating. Weights 8, 13 load the sample 7 with alternating axial loads. To test the specimen under constant loads at the moment of changing the direction of movement of the pusher 4, one pair of clamps 15, 10 is turned off, the other pair of 11, 16 is turned on, which is why when moving in one and the other directions, loads of the same sign are obtained, but differing in magnitude in accordance with the weights cargo pairs. To change the relationship between the loads in the cycle, the ratio of the weights of the loads on the grippers 5 and 6 is changed. For tests with two-cycle loads, the drive 12 is turned on and the housing 2 is rotated. In the second cycle, the load values change in accordance with the location of the loads: the loads are minimal when the loads are horizontal and maximum with a vertical arrangement of goods.

The installation provides an increase in the amount of information by testing during transitions from alternating to alternating loads under single-cycle and two-cycle loads.

Claims (3)

1. Installation for testing fatigue of samples of materials, containing a base, a housing mounted on it, an eccentric drive placed on the housing, a pusher connected to the eccentric drive, two sample grips, the first of which is connected to the pusher, the first inertial load associated with the second gripper , characterized in that it has a second inertial load associated with the first grip, and latches for connecting loads with a pusher. 2. Installation according to claim 1, characterized in that the housing of the installation is made in the form of a platform with a drive turning it in a vertical plane. 3. Installation according to claim 1, characterized in that it has additional inertial loads, clamps for their connection with the pusher and clamps for their connection with the first and second inertial loads.