RU2455626C2 - Facility to test samples for fatigue - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: facility comprises a housing with the end and console captures the sample mounted thereof, front capture rotatory drive, loading mechanism, which includes an eccentric with rotation drive, ball suspension, and an elastic element that connects the suspension with an eccentric. The facility has a suspended mechanism connected to one end of the elastic element, and two flexible rods that connect the other end of the elastic element and the suspension, and the eccentric is located between the rods.

EFFECT: increased information volume by means of testing a rotated sample in multicycle loading with changes in the average level and amplitude of the load during tests.

3 cl, 1 dwg

Description

The invention relates to testing equipment, to strength tests.

A known installation for testing samples for fatigue (RF patent No. 1245933, class G01N 3/32, 1986), comprising a housing, end specimen and cantilever grips mounted on it, an end gripper rotation drive, a loading mechanism including an eccentric with a rotation drive, a ball suspension, and the elastic element that connects the suspension to the eccentric.

The disadvantage of the installation is that it is not feasible to test a rotatable sample under high-cycle loads with a change in the average level and amplitude of the load during the tests.

A known installation for testing samples for fatigue (RF patent No. 1682875, class G01N 3/32, 1991), comprising a housing, end-mounted and cantilever grips of a sample mounted on it, an end-grip rotation drive, a loading mechanism including an eccentric with a rotation drive, a ball suspension, and the elastic element that connects the suspension to the eccentric.

The disadvantage of the installation also lies in the fact that it is not feasible to test a rotatable sample under multi-cycle loads with a change in the average level and amplitude of the load during the tests.

A known installation for testing samples for fatigue (RF patent No. 2049325, class G01N 3/32, 1993), taken as a prototype. The installation comprises a housing, end-mounted and cantilever grips of the specimen mounted on it, an end-grip rotation drive, a loading mechanism including an eccentric with a rotation drive, a ball suspension, and an elastic element connecting the suspension to the eccentric.

The disadvantage of the installation also lies in the fact that it is not feasible to test a rotatable sample under multi-cycle loads with a change in the average level and amplitude of the load during the tests. This limits the amount of information in experimental studies of the properties of materials and products.

The technical result of the invention is to increase the amount of information by testing a rotatable sample under multi-cycle loads with a change in the average level and amplitude of the load during testing.

The technical result is achieved by the fact that the installation for testing the samples for fatigue, comprising a housing, end-mounted and cantilever grips of the sample mounted on it, an end-grip rotation drive, a loading mechanism including an eccentric with a rotation drive, a ball suspension, and an elastic element connecting the suspension to the eccentric , according to the invention has a tension mechanism connected to one end of the elastic element, and two flexible rods connecting the second end of the elastic element and the suspension, while the eccentric is located m forward rods.

The technical result is also achieved by the fact that the eccentric is made in the form of an electromagnetic coil with adjustable attractive force radially fixed to the axis of rotation, and the rods are made of electromagnetic material.

The technical result is also achieved by the fact that it has additional rotation drives according to the number of additional loading cycles, and stops placed between the rods and kinematically connected with additional drives, while the rods in the sections between the stops are connected to each other.

Figure 1 presents the installation diagram.

The fatigue testing apparatus includes a housing 1, an end 2 mounted on it and a cantilever 3 captures of a sample 4, a rotational drive 5 of the end gripper, a loading mechanism including an eccentric 6 with a rotational drive 7, a ball suspension 8, an elastic element 9 interacting with the suspension .

The installation has a tension mechanism 10 connected to one end of the elastic element 9, and two flexible rods 11, 12 connecting the second end of the elastic element and the suspension. The eccentric 6 is located between the rods.

The eccentric 6 is made in the form of an electromagnetic coil with an adjustable attractive force radially mounted on the rotation shaft 13. The rods 11, 12 are made of electromagnetic material.

The installation has additional rotation drives 14, 15 in terms of the number of additional loading cycles and stops 16, 17 located between the rods 11, 12 and kinematically connected with the additional drives 14, 15. The rods 11, 12 in the sections between the stops are connected to each other by clamps 18.

The tensioning mechanism can be made screw or in the form of a press of a typical design. The elastic element is made in the form of a spring.

Installation works as follows.

The tensioning mechanism 10 through the elastic element 9, the rods 11, 12, the suspension 8 and the gripper 3 create an initial bending load on the sample 4. The drive 5 is turned on and the sample 4 is rotated through the gripper 2. For tests with single-cycle bending, drive 7 and turn the eccentric 6. The eccentric 6 alternately interacts with the rods 11 and 12, deflects them from the vertical (according to the drawing) position, changes the deformation of the spring 9 and the bending load on the sample 4. To change the average load level in the cycles, use the tension mechanism 10. To change the amplitude Udy cam 6 connected to the current source cycles (not shown), whereby the electromagnet becomes eccentric and interacting with rods moves them in opposite directions by increasing and decreasing the load on the sample. Additional changes in the amplitude of the cycles the greater, the greater the magnetic force of the eccentric. For tests with multi-cycle loading, additional drives 14, 15 are used. Each of the drives rotates a corresponding stop 16, 17, which cyclically extends the rods 11, 12, which creates additional loading cycles. The parameters of the additional cycles are set by the frequency of rotation of the stops and their sizes: the larger the size "a" compared with the size "b", the greater the amplitude of the oscillations in this cycle, and the larger the size "a" of the different stops, the greater the amplitude in different cycles.

The facility provides research in new conditions - with multi-cycle loads with a change in the average level and amplitude of the load during testing, which increases the amount of information received.

Claims (3)

1. Installation for testing samples for fatigue, comprising a housing, mounted on it end and cantilever grips of the sample, the drive rotation of the end gripper, a loading mechanism including an eccentric with a rotation drive, a ball suspension, and an elastic element connecting the suspension with an eccentric, characterized in that it has a tension mechanism connected to one end of the elastic element, and two flexible rods connecting the second end of the elastic element and the suspension, while the eccentric is located between the rods. 2. Installation according to claim 1, characterized in that the eccentric is made in the form of an electromagnetic coil with adjustable attractive force radially fixed to the axis of rotation, and the rods are made of electromagnetic material. 3. Installation according to claim 1, characterized in that it has additional rotation drives according to the number of additional loading cycles, and stops placed between the rods and kinematically connected with additional drives, while the rods in the sections between the stops are connected to each other.