SU864046A1 - Apparatus for testing sheet specimens for biaxial tension - Google Patents

Description

The invention relates to testing equipment, and in particular to installations for testing tensile samples of sheet materials.

A known installation for testing samples of sheet materials for biaxial tension, containing two load-bearing beams with hydraulic cylinders pivotally mounted on them and grippers, moreover, the installation uses a series connection scheme of a sample of grippers and a hydraulic cylinder (1].

The disadvantages of the installation are a narrow range of changes in the magnitude of the force, due to the adopted scheme 15 for serial connection of the sample, grips and hydraulic cylinder, which exhausts the power capabilities. Install the capabilities of the power hydraulic drive and the narrow technological capabilities? ·.

The purpose of the invention is the expansion of technological capabilities by providing uniaxial testing of two samples and expanding the range of 25 changes in the magnitude of the effort.

This goal is achieved by the fact that the carrier beams are each made in the form of two L-shaped parts, pivotally connected to each other, at least one of the beams is installed with the possibility of movement in the axial direction, the hydraulic cylinders are located between the free ends of the beams, and the grippers are mounted on racks beams with the ability to move along them.

In addition, the installation is equipped with support rails mounted with the possibility of moving along the beam racks in which the grips are installed.

The drawing schematically shows the proposed installation.

The installation contains two load-bearing beams, each made in the form of two L-shaped parts 1, 2 and 3, 4, interconnected by hinges 5 and 6, hydraulic cylinders 7 and B, hinged to the ends of the load-bearing beams. One of the beams is installed with the possibility of movement using the device 9 associated with the drive (not shown). The grippers 10-13 are pivotally attached to the beam racks with the ability to move by moving the curly nuts 14 along the beam racks when the flywheels 15 screws rotate 16. The installation is equipped with support rails 17-20 installed with the possibility of moving along the beam racks, in which the grippers 10-13 are installed . The support rails 17-20 are moved by means of the flywheels 21 screws 22

Installation works as follows.

By turning the flywheel 15 screws 16 and the flywheel 21 screws 22, the grippers 10-13 and the supporting guides 17-20 are set to a predetermined height relative to the hinges 5 and 6. After fixing the position of the grippers and fixing the sample 23 in the grippers, pressure is applied to ι hydraulic cylinders 7 and 8. With increasing pressure in the hydraulic cylinders 7 and 8, the power beams open, mutually remove the grippers 10-13 from each other and simultaneously move them towards their supporting hinge 5 or 6. This movement causes the appearance of tensile and bending forces, acting those who are in the plane of the specimen 23. Elimination of the transmission of bending forces to the specimen 23 is carried out using the support guides 17 ~ 20, in which the grippers 10-13 are installed. So that the guides 17-20 on both axes maintain their position in the same plane and do not change this position under the action of the vertical components of the forces, i.e. would be a support, they are supported by screws 22, while the action of the force on the sample is ensured only in its plane and the uniform distribution of stresses across the thickness of the sample 23 is maintained in all its zones.

If it is necessary to carry out uniaxial tensile tests at the same time, two samples move the movable beam upwards by means of a device and install the grippers 10-13 at various heights using the flywheels 15 screws 16 and the flywheels 21 screws 22. The procedure for testing simultaneously two samples is similar to biaxial tests .

Thus, the proposed installation allows both biaxial tests and uniaxial tests of two samples simultaneously. A significant gain in effort is achieved by the location of the hydraulic cylinders at the ends of the power beams, and the grips in their middle part between the axis of rotation of the power beams and the axis of the hydraulic cylinder, i.e. through the use of circuit ¹ 'lever''.

Claims (1)

By moving the support guides 17-20 along the racks of the beams, in which the clamps 10-13 are installed. The support guides 17-20 move 21 screws 2 with the flywheels. The installation works as follows. By turning the flywheels 15 of the screws 16 and the flywheels 21 of the screws 22, the clamps 10-13 and the support guides 17-20 are set to a predetermined height relative to the hinges 5 and 6. After fixing the position of the claws and securing the sample 23 in the clamps, pressure is applied to the i hydraulic cylinders 7 and 8 With the increase in pressure in the cylinders 7 and 8, the force beams open, mutual gripping of the grippers 10-13 from each other and their simultaneous movement in the direction to their supporting hinge 5 or 6. This displacement causes the appearance of stretching and bending efforts In the plane of the sample 23, the elimination of the transfer of bending forces on the sample 23 is carried out by means of support guides 17-20, in which grippers 10-13 are mounted so that the guides 17-20 on both axes maintain their position in one plane and not this position was altered by the vertical components of the force, i.e. would be supported, they are supported by screws 22, so the force of the sample is ensured only in its plane and the uniform distribution of stresses over the thickness of sample 23 in all its zones is preserved. In case of need to test for uniaxial tension of two samples simultaneously t moving the movable beam upwards using the tool and setting the grippers 10-13 to different heights with the help of flywheels 15 screws 16 and flywheels 21 screws 22, It is the order of testing two analogous samples simultaneously A perfect biennial test. Thus, the proposed installation allows for both biaxial testing and uniaxial testing of two samples simultaneously. Significant gain in effort is achieved by positioning the hydraulic cylinders at the ends of the power beams, and the grippers in their middle part between the axis of rotation of the power beams and the axis of the hydraulic cylinder, i.e., due to the use of a lever diagram, Invention 1. Installation for testing sheet material samples for biaxial growth containing two support beams with hydraulic cylinders hinged on them and grippers, characterized in that, in order to expand technological capabilities by providing uniaxial testing of two samples and p In order to expand the range of the magnitude of the force, the carrier beams are each made in the form of two L-shaped parts pivotally interconnected, at least one of the beams is mounted for movement in the axial direction, the hydraulic cylinders are placed between the free ends of the beams, and the arms are mounted on racks beams with the ability to move along them. 2, Installation according to claim 1, wherein it is equipped with support bearings installed with the possibility of movement along the posts of the beam, in which the grippers are installed. Sources of information taken into account in examination 1, A. Bvgenyev, Installation DN-3M for testing flat samples at various ratios of main stresses, - Welding production, 1975, W 7.