RU2376579C1 - Plant for friction test of specimens at two-dimensional stressed state - Google Patents

Abstract

FIELD: testing equipment.

SUBSTANCE: invention refers to testing equipment, to friction tests of material specimens. Plant for friction test of specimens at two-dimensional stressed state includes base, specimen and counterspecimen grippers installed on it, arc-shaped guide with platform arranged on it, drive for platform movement along the guide, loading mechanism installed on the guide and made in the form of hydraulic cylinder the stock of which is connected to specimen gripper, mechanism of relative movement of grippers, which is installed on platform and made in the form of hydraulic cylinder the stock of which is connected to specimen gripper, and pressure source interconnected with cavities of hydraulic cylinders. At that, arc-shaped guide is made with possibility of angular turn and has drive for implementing the above turn.

EFFECT: increasing the amount of information by providing tests at synchronous change of direction of pressing and shearing forces relative to shear plane.

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Description

The invention relates to testing equipment, to testing samples of materials for friction.

A known installation for testing samples for friction in a plane stress state (RF patent No. 1601560, class G01N 3/56, 1989), containing a base, grips of a sample and a counter-sample mounted on it, a loading mechanism associated with gripping the sample, and a relative movement mechanism captures.

The disadvantage of the installation is the inability to adjust the angle between the directions of the pressing and shear forces, as well as synchronously change the direction of the pressing and shear forces relative to the plane of shear.

A known installation for testing samples for friction in a plane stress state (RF patent No. 1448239, class G01N 3/10, 1987), containing a base, mounted on it grips the sample and counter sample, a guide with a platform placed on it, a drive moving the platform along the guide , a loading mechanism mounted on the guide and made in the form of a hydraulic cylinder, the rod of which is connected with the capture of the sample, the relative movement of the grippers mounted on the platform and made in the form of a hydraulic cylinder, the rod of which is connected en with the capture sample, and pressure source communicating with the cavities of hydraulic cylinders.

The disadvantage of the installation is the inability to adjust the angle between the directions of the pressing and shear forces, as well as synchronously change the direction of the pressing and shear forces relative to the plane of shear.

A known installation for testing samples for friction in a plane stress state (RF patent No. 2015504, class G01N 3/56, 1993), taken as a prototype. The installation comprises a base, grips of a sample and a counter sample installed on it, an arched guide with a platform placed on it, a drive for moving the platform along the guide, a loading mechanism mounted on the guide and made in the form of a hydraulic cylinder, the rod of which is connected with the gripper of the sample, a mechanism for the relative movement of the grippers, mounted on the platform and made in the form of a hydraulic cylinder, the rod of which is connected with the capture of the sample, and a pressure source in communication with the cavities of the hydraulic cylinders. The installation allows you to adjust the angle between the directions of the pressing and shear forces.

The disadvantage of the installation is the inability to conduct tests both when adjusting the angle between the directions of the pressing and shear forces, and when synchronously changing the direction of the pressing and shear forces relative to the plane of shear. This limits the amount of information in the study of friction and energy exchange during shifts.

The technical result of the invention is to increase the amount of information by providing tests with a synchronous change in the direction of the pressing and shear forces relative to the shear plane.

The technical result is achieved by the fact that the installation for testing samples for friction in a plane stress state, comprising a base, grips of a sample and a counter sample mounted on it, an arcuate guide with a platform placed on it, a drive for moving the platform along the guide, a loading mechanism mounted on the guide and made in the form of a hydraulic cylinder, the rod of which is connected with the capture of the sample, the relative movement of the grippers mounted on the platform and made in the form of a hydraulic cylinder, the rod of which is associated with the capture of the sample, and the pressure source in communication with the cavities of the hydraulic cylinders, according to the invention, the arcuate guide is made with the possibility of angular rotation and has a drive to implement the specified rotation.

The possibility of angular rotation of the arcuate guide and the drive for this rotation allow you to synchronously rotate both loading mechanisms relative to the sliding plane, which is not feasible on the prototype and allows to achieve a technical result.

The drawing shows the installation diagram.

The apparatus for testing samples for friction in a plane stress state contains a base 1, grips 2, 3 of sample 4 and counter-sample 5 mounted on it, an arcuate guide 6 with a platform 7 placed on it, a drive 8 for moving the platform 7 along the guide 6, a loading mechanism installed on the guide and made in the form of a hydraulic cylinder 9, the rod 10 of which is connected with the gripper 2 of the sample, the mechanism for the relative movement of the grippers installed on the platform 7 and made in the form of a hydraulic cylinder 11, the rod 12 of which is connected with the gripper with cotton wool 2 samples, and a pressure source 13 in communication with the cavities of the hydraulic cylinders 9, 11.

The arcuate guide 6 is made with the possibility of angular rotation and has a drive 14 to implement the specified rotation.

To implement the rotation of the arcuate guide 6, an additional guide 15 is used. The drives 8 and 14 are made, for example, in the form of winches.

Installation works as follows.

The source 13 creates a predetermined pressure in the cavity of the hydraulic cylinder 9 and thereby load the sample 4 and the counter-sample 5 with a pressing force. When the source 13 creates pressure in the hydraulic cylinder 11, the samples are loaded with a given shear force. To change the direction of the shear force relative to the contact plane of the samples (shear plane), the drive 8 moves the platform 7 with the hydraulic cylinder 11 in the desired direction along the guide 6. To synchronously change the direction of action of the pressing and shear forces relative to the shear plane, the drive 14 rotates the guide 6 in the specified direction to the specified angle. Tests are carried out prior to the implementation of shifts for different magnitudes of the pressing and shear forces and for different directions of these forces relative to the plane of shear.

The proposed installation provides the study of friction in new conditions - with a synchronous change in the direction of the pressing and shear forces relative to the shear plane.

Claims (1)

An apparatus for testing specimens for friction in a plane stress state, containing a base, grips of a specimen and a counter sample mounted on it, an arcuate guide with a platform placed on it, a drive for moving the platform along the guide, a loading mechanism mounted on the guide and made in the form of a hydraulic cylinder, the rod of which associated with the capture of the sample, the mechanism for the relative movement of the grippers mounted on the platform and made in the form of a hydraulic cylinder, the rod of which is associated with the capture of the sample, and Source pressure communication with the cavities of hydraulic cylinders, characterized in that the arcuate guide is adapted for angular rotation and is driven for rotation of said implement.