RU2376577C1 - Plant for strength test of materials - Google Patents

Abstract

FIELD: testing equipment.

SUBSTANCE: invention refers to testing equipment, to strength tests. Plant for strength test of materials includes base, lever installed on it, two rollers installed on lever ends and kinematically connected to each other, rotary drive connected to one of rollers, rack with load, which is fixed on the second roller, wheel, rotation plane of which is parallel to rotation plane of lever, wheel turning device, active specimen gripper hinged to lever, passive specimen gripper fixed on wheel internal surface. At that, on the base there installed is additional wheel on which there arranged is additional lever with two additional kinematically connected rollers on ends, rotary drive of one of additional rollers, rack with load fixed on the second additional roller; at that, additional wheel is engaged with wheel with possibility of being detached.

EFFECT: increasing amount of information by means of tests at cyclic changes of ratio between axial and bending loads.

1 dwg

Description

The invention relates to testing equipment, to strength tests.

A known installation for testing materials for strength (RF patent No. 1422089, class G01N 3/08, 1988), containing a base, a lever placed on it, an active sample grip pivotally mounted on the lever, a passive sample grip mounted on the base.

The disadvantage of the installation is the inability to test under the action of not only axial, but also bending loads.

A known installation for testing materials for strength (RF patent No. 1516866, class G01N 3/34, 1990), containing a base, a lever placed on it, two rollers mounted on the ends of the lever and kinematically connected to each other, a rotation drive connected to one from the rollers, a rail with a load, mounted on the second roller, an active sample capture mounted on the lever, a passive sample capture mounted on the base.

The disadvantage of the installation is also the lack of testing at axial and bending loads.

A known installation for testing materials for strength (RF patent No. 2051366, class G01N 3/34, 1993), taken as a prototype. The installation comprises a base, a lever placed on it, two rollers mounted on the ends of the lever and kinematically connected with each other, a rotation drive connected to one of the rollers, a rail with a load fixed on the second roller, a wheel whose rotation plane is parallel to the plane of rotation of the lever, device for turning the wheel, active grip of the sample pivotally mounted on the lever, passive grip of the sample, mounted on the inner surface of the wheel. The installation tests samples of materials under the action of axial, bending loads and together both types of loads when changing the ratio between them.

The disadvantage of the installation is that it does not allow cyclically changing the relationship between axial and bending loads during loading. This ratio can only be changed between series of loads. When the desired ratio is set, turn on the installation and produce cyclic loads with a change in loads only in magnitude. The ratio between the load values remains unchanged until the next adjustment of the test conditions. Cyclic changes in the load ratio during loading are not feasible. This significantly limits the amount of information during testing, since it is precisely the changes in the ratios between axial and bending loads in cyclic tests that accelerate the nucleation of fracture centers, their development and coalescence in the sample material.

The technical result of the invention is to increase the amount of information by testing with cyclic changes in both the magnitude and the ratio of axial and bending loads.

The technical result is achieved by the fact that in the installation for testing materials for strength, containing a base, a lever placed on it, two rollers mounted on the ends of the lever and kinematically connected to each other, a rotation drive connected to one of the rollers, a rail with a load, mounted on the second roller, a wheel, the plane of rotation of which is parallel to the plane of rotation of the lever, a device for turning the wheel, an active grip of the sample, pivotally mounted on the lever, a passive grip of the sample, mounted on the inside the surface of the wheel, according to the invention, an additional wheel is installed on the base, on which an additional lever with two additional kinematically connected rollers is placed at the ends, a rotation drive of one of the additional rollers, a load rail mounted on the second additional roller, the additional wheel being coupled to the wheel with the possibility of separation.

An additional wheel with an additional lever with rollers, drive, rail and load placed on it creates cyclic rotations of the main wheel and cyclic rotations of the specimen, which provides cyclic changes in the ratios of axial and bending loads. This achieves the technical result of the invention.

The drawing shows the installation diagram.

Installation for testing the materials for strength contains a base 1, a lever 2 placed on it, two rollers 3, 4 mounted on the ends of the lever 2 and kinematically connected to each other, a rotation drive 5 connected to one of the rollers 3, a rail 6 with a load of 7, fixed on the second roller 4, wheel 8, the plane of rotation of which is parallel to the plane of rotation of the lever 2, a fixture 9, for example, in the form of a roller for turning the wheel 8, an active grip 10 of the sample 11, pivotally mounted on the lever 2, a passive grip 12 of the sample 11, fixed on the inside wheel surface 8.

On the base 1, an additional wheel 13 is installed, on which an additional lever 14 with two additional kinematically connected rollers 15, 16 at the ends, a rotation drive 17 of one of the additional rollers 15, a rail 18 with a load 19, mounted on the second additional roller 16, are mounted however, the additional wheel 13 is coupled to the wheel 8 with the possibility of separation.

The separation of the additional wheel 13 with the wheel 8 is made by a lever 20, which is connected with the axis of rotation of the wheel 13 (not shown). Wheels 8, 13 can be made toothed, which improves the quality of the kinematic connection between them.

Installation works as follows.

The drive 5 is turned on and the rail 6 is rotated through the rollers 3 and 4, which is why the load 7 creates cyclic compressive loads on the sample 11. To change the ratio between the axial and bending loads, the drives 5, 17 are turned off, the wheels 8, 13 are disengaged by the lever 20 and the device is rotated 9 turn the wheel 8 and the sample 11 to a new position. In the horizontal (according to the drawing) position, the sample is loaded with a clean bend, in the vertical position shown in figure 1, compression, when rotated 180 ° relative to the position shown in figure 1, by tension, in intermediate positions by axial and bending loads with a ratio depending on the orientation of the sample. To create test conditions under which the relationship between the loads during loading is changed, the drive 17 is turned on and, using the rollers 15, 16, the rails 18 and the load 19, they create the rotational movements of the wheel 13. These movements are transmitted to the wheel 8 and create cyclic movements of the gripper 12 and the corresponding cyclic changes in orientation of the sample.

The installation provides testing under new conditions - with cyclic changes in the ratio between axial and bending loads.

Claims (1)

An installation for testing the strength of materials, containing a base, a lever placed on it, two rollers mounted on the ends of the lever and kinematically connected with each other, a rotation drive connected to one of the rollers, a rail with a load fixed on the second roller, a wheel, a plane of rotation which is parallel to the plane of rotation of the lever, a device for turning the wheel, an active grip of the sample pivotally mounted on the lever, a passive grip of the sample mounted on the inner surface of the wheel, characterized in that an additional wheel is installed on the base, on which an additional lever with two additional kinematically connected rollers is placed at the ends, a rotation drive of one of the additional rollers, a load rail mounted on the second additional roller, while the additional wheel is interlocked with the wheel.