SU1370516A1 - Arrangement for fatigue tests of specimens in pure bending - Google Patents

Abstract

This invention relates to a testing technique. The purpose of the invention is to improve accuracy by eliminating errors associated with unaccounted axial components. The exciter 1 dynamic movements through the connecting rod 2 is pivotally connected with the rocking chair 3, and through the connecting rod 2 and the slider 4 - with the criminal lever 5. In turn, the angular lever 5 through 6 connects to the first gripper 7 for sample 8, and rocking chair 3 through pulls 9, 10 and 11 with the second gripper 12, to which the axial movement mechanism 13 is attached. The exciter 1 dynamic movements transmits the oscillatory motion of the rocking chair 3 and the angular lever 5, and through them, respectively, the grippers 12 and 7, which leads to the loading of the sample 8 cyclical clean bend. 1 il. with

Description

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The invention relates to a testing technique, namely, devices for testing samples for fatigue in pure bending.

The purpose of the invention is to improve the accuracy of testing by eliminating errors associated with unaccounted axial components.

The drawing shows a kinematic diagram of a device for testing specimens for fatigue in pure bending.

The device contains a dynamic movement exciter 1, a connecting rod 2 pivotally connected to it, which is pivotally connected to one of the tops of the rocking chair 3, made in the form of a triangle, and with one end of the slider - The other end of the slider 4 is pivotally connected to one shoulder of the angular lever 5, the second the shoulder of which, through the pull of 6, is pivotally connected with the first gripper 7 for sample 8. The rocking chair 3 is connected by pull 9 and two additional grids 10 and 11 to the second gripper 12 to form a parallelogram mechanism. An axial mixing mechanism 13 is connected to the second gripper 12.

The device works as follows.

The exciter 1 dynamic movements through the crank 2 transmits an oscillatory movement of the rocking chair 3 and through the slider 4-angular lever 5. The latter through the trans 6 transmits the movement to the first gripper 7, and rocking 3 through the additional t g 10 and. 11 - to the second gripper 12. When the grippers 7 and 12 rotate, the axial component of the forces transmitted by the additional rods 10 and 11 are mutually compensated, and the transmitted six by the gripper 6 are perceived by the hinge gripper 7. The distance between the hinges of the grippers 7 and 12 eliminates the occurrence of axial forces due to the rotation of the gi 9 in the circle of the hinge rocking 3.

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There is a cyclic loading of the sample 8 with a clean bend. In order to realize axial loading, axial movement mechanism 13 is connected to the second gripper 12, and preloading is carried out by moving dynamic actuator 1.

The proposed device allows testing with any cycle asymmetry, and also allows the sample to be loaded with a given axial load.

Claims (2)

1. A device for testing specimens fatigued with a clean bend, containing a driver of dynamic movements, an articulated connecting rod and an angle lever, grips for fastening the sample and two rods, one of which is pivotally connected to the first gripper and one of the arms a corner lever, and a friend with a second gripper, characterized in that, in order to improve accuracy by eliminating errors associated with unaccounted axial components, it is provided with a slider, one end of which is pivotally connected to the free arm of an angular lever ha, rocking chair in the form of a triangle, one of the vertices of which are pivotally connected with the connecting rod and the other end of the slider, and two additional rods, one ends of which are pivotally connected with the corresponding vertices of the triangle, and others with the second gripper to form a parallelogram mechanism. 2. A POP device 1, characterized in that, in order to expand the operational capabilities by providing a normalized axial force on the sample, it is provided with an axial movement mechanism associated with the second gripper.