SU1320706A1 - Multipurpose device for fatigue tests of materials at mere rotary bending and static tension - Google Patents

Abstract

The invention relates to multi-cycle fatigue tests, can be used for tests under the combined action of pure bending and stretching, and allows for improving the accuracy of tests and providing a rigid and elastic test mode. Based on 1, an actuator is installed in the form of an electric motor 2, a flexible roller 3, spindles 4 and 5, and grippers 6 for sample 7. To load the sample with a clean bend, a device is used in the form of a cross beam 8, two t 9 and a suspension, made in the form of a lever the support 11. The device 13 stretches the sample 7. The installation is equipped with a double-sided adjustable stop 16. In hard mode tests, the stops 16 are set to their original position, in which the lever 10 is not fixed. The lower yiiopOM 16 releases the lever 10 and the required loading of the sample 7 occurs, and the device 13 adjusts the position of the lever 10 so that the pointer 15 goes to the zero position. In the elastic mode, the upper stop 16 returns to its original position, and the return of the pointer 15 to the zero position is achieved by an additional load. 1 hp f-ly, 1 ill. s (L O 05

Description

The invention relates to multi-cycle fatigue tests and can be used for testing under the combined action of pure bending and stretching under rigid and elastic loading conditions.

The purpose of the invention is to expand the operational capabilities and improve the accuracy of determining the fatigue characteristics by providing both hard and elastic loading and compensating for the unloading bending moment.

The drawing shows a universal installation, a general view.

A universal installation for testing materials for fatigue with pure circular bending and static stretching contains a base 1 drive made in the form of an electric motor 2 connected by a flexible roller 3 to a spindle 4 hinged on the base 1. The second spindle 5 is movable in axial direction. The grippers 6 for sample 7 are installed in spindle x 4 and 5. The device for loading sample 7 with a clean bend is made in the form of a crosspiece 8, two bars of 9, connecting it with spindles 4 and 5 and a suspension in the form of a lever 10 with an elastic adjustable support 11, coupled by a thrust 12 to the crossmember 8. A device 13 for statically stretching the sample 7 is mounted on the base 1 and connected by a flexible link 14 to a second spindle 5. The deflection indicator 15 of the sample 7 is connected to the suspension arm 10.

The installation is equipped with a double-sided adjustable stop 16 installed with the possibility of interaction with the suspension arm 10.

Universal installation works as follows.

In the hard loading mode, the sample 7 is installed in the grippers 6 of spindles 4 and 5, the stops 16 are set to their original position, in which the lever 10 is not fixed, after which the support 11 lever 10 is installed on the lever indicator 15 of the deflection of the sample 7 to the zero position and the lower stop 16 fixed in this position against downward movement. A load is then placed on the lever 10 to load the sample 7 with a clean bend, and the sample 7 is rotated

the electric motor 2. The bottom stop 16 release the lever 10, and the sample 7 is loaded with a clean bend, while the lever pointer

15 deviates to the + side on the scale. Then the device 13 adjusts the position of the support 11 of the lever 10 so that the pointer 15 returns to the zero position, after

which the upper stop 16 fixes this position of the lever 10 from moving upwards. After this, sample 7 is loaded by stretching. Unloading arising from tensile load

the bending moment in the working section of sample 7 is automatically compensated by the reaction that occurs in the support of the lever 10 on the adjustable stop 16. In elastic loading mode

the upper stop 16 returns to its original position, while firmly fixing the lever 10 is released from moving upwards, the deflection of sample 7 decreases with the corresponding angular movement of the lever 10 and the deflection of the pointer 7 of deflection of the sample 7 to the side is on a scale. Then an additional load is set on the suspension,

the guise of which corresponds to the return of the lever pointer 15 to the zero position. The lever 10 is not fixed firmly by the stop 16, there is an elastic loading mode.

Claims (2)

1. Universal setup for fatigue testing 40 with pure circular bending and static stretching, containing a base, an actuator made in the form of an electric motor connected by a flexible roller with a pivotally mounted 45 on the base of the spindle, the second spindle mounted for movement in the axial direction, grips for the specimen mounted in the spindles, the device for loading 50 of the specimen with a clean bend, made in the form of a traverse, two tons of grams connected to the spindles and suspensions in the form a lever with a support associated with the crosshead, and a device for 55 static stretching of the sample, installed on the base and connected by a flexible connection with the second spindle, in order to expand the operational capabilities and increased accuracy, the support of the suspension is made elastic with adjustable position and stiffness, and the sample deflection indicator is connected to the suspension lever. Editor N.Slbbod nick Compiled by N. Dobromyslov Tehred A. Kravchuk - Proofreader A.Zimokosov Order 2652/46 Circulation 776 Subscription VNIIPI USSR State Committee for Inventions and Discoveries 4/5, Moscow, Zh-35, Raushsk nab. 113035 Production and printing company, Uzhgorod, Projecto st., 4 2. Installation according to claim 1, that is, with the fact that it is equipped with a double-sided adjustable stop, installed with the possibility of engagement with the suspension lever.