SU81668A1 - Material endurance testing machine - Google Patents

Description

The subject of the invention is a machine for testing cylindrical samples of metals for joint or sectional extension and cantilever bending combined with rotation under conditions of normal or high temperature.

Masks are already known for testing the bending of metal samples subjected to rotation and at the same time cantilever loaded with a removable load through a system of levers using a removable tubular electric furnace for heating the sample.

The disadvantage of this kind of machine is that simultaneously with rotation and cantilever bending, the test specimen is twisted, which distorts the conditions and final results of the test.

This disadvantage is eliminated in the proposed technique, in which, in order to prevent the sample from twisting, it is given during the test a two-way rotational movement with simultaneous loading of the sample by means of a double linkage system. 1 schematically shows a general view of the machine in question; in fig. 2 and 3 - view of node A in two projections.

The test specimen / smooth end with a recess is fixed in the clamp 2 on the shaft 5. The pulley 4 is connected by a belt drive to the pulley 5 on the shaft 6 of the electric motor.

In order to prevent the sample from twisting, rotation from the electric motor is transmitted through pulleys 7 and 8 also to the left side of the sample through adapter sleeves 9 and 0 and connected with a roller.

This roller is kinematically associated with an extension 12, into which the threaded end of the test specimen is screwed. When only a bending load is applied to the sample, there is no rigid connection between the roller and the extension.

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The tensile force is transferred to the sample from the yoke 13 (Fig. 2) when it is axially moved through the thrust bearings 14 and the sleeve / 5 rotated by the roller — And through connection 16. The tensile

force on extension cord is transmitted through sleeve 17 and nut 18.

Such a coupling device prevents the specimen from possible twisting when the belt slips along the shchikv.

All knots of the machine are fastened on the frame 19 (Fig. 1) with the brackets 20, 21 and 22. The design of the brace 21 allows the rotary system together with the shaft 3 and the cheek 4 to longitudinally move along the frame when the screw 23 is rotated. The test sample is loaded as follows .

A bending load is created by a variable load 24, which is put on the suspension 25, which is connected to the lever 28 through the link 26 and the prism 27. The left end of the lever 28 is pivotally connected to the lever 29.

The middle part of the lever 28 is also hingedly connected to the frame of the maschina; the right end of the lever is provided with a counterweight 30, balancing the lever system with the load removed 24.

The lever 29 supports on the axis x 31 (Fig. 2) the yoke 32, in which the extension cord 12 is fixed. Under the action of the load 24 (Fig. 1), the lever 28 moves downwards and there is no lever 29 that lowers the yoke 32 with the extension, creating cantilever bending of the test specimen secured in clamp 2.

The tensile load is created by a variable load placed on the suspension 33, which by means of the prism 34 is suspended from the lever 55. The lever is fixed on the frame of the mashiny by hinge 36 and connected to the lever 29 by steel tape 37. One end of the tape is fixed on the lever 29 by screw 38, the second is slung through the roller 39 and fixed on the lever 35 pin 40.

The equilibrium position of these lever weights is controlled by the arrow 41, aligned with the bar 42. Under the action of the weight 43, the left end of the lever 35 tends to move downwards. In the belt 37, tensile forces are created which cause the lever 29 to turn in the hinge fastening 44, which in turn causes a longitudinal (axial) movement of the cage 32.

Simultaneous loading with loads 24 and 43 creates a difficult stress state in a rotating sample, associated with the simultaneous action of alternating bending stresses and axial tension.

Measurement of the sample deflection during testing is performed using conventional indicators.

The sample elongation is measured by a dividing ruler 45, mounted on the frame 19, by stirring the brackets 21. When the sample is extended, the weight 43 moves downwards, the boom 41 moves away from the bar 42. In order to return to the equilibrium position, it is required to move the brace 21 to a distance equal to the axial deformation of the sample ation.

This movement carried out by the screw 23 is marked on the dividing line 45.

By placing the test specimen in a tubular electric furnace, tests can be performed at high temperatures.

Subject invention

Claims (3)

1. Mask for testing materials for endurance, characterized in that, in order to carry out joint or separate deformation of cantilever bending and stretching without twisting the test specimen, the loading device of the machine is made in the form of a double lever device, pivotally connected by a bearing sleeve and consisting of a system of unequal arms, loaded with interchangeable weights, and, depending on the values of the installed loads, performing separate or joint console bending and stretching of the test specimen mounted in the clips of the machine and subjected to the process of testing a two-way rotation from the drive of the electric motor. 2. Use of a removable tubular electric furnace in a machine according to claim 1 for carrying out heating of the sample when tested under conditions of high temperatures. 3. Application of the machine according to claim 1, 2, equipped with a stop screw and a dividing ruler of the movable clamp for fastening the test specimen, in order to determine the linear deformation of the latter, and dial gauges or other measuring instruments for measuring the deflection warming during the test. № 81668 .Vo 81668 t3. 2 five/ SCT "M 5S S 31 f : zr7i fff