RU2417361C1 - Test bench for testing samples of materials for impact bend - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: test bench for testing samples of materials for impact bend consists of base, of falling load interacting with sample, of vertical guides for falling load, of holder of falling load and of sample gripper hinged with base. The test bench is equipped with an additional gripper of the sample hinged to the base, with the holders of grippers swivel, and sensors of grippers swivel angle.

EFFECT: test bench facilitating analysis of power absorption under new conditions at free and restricted development of bend deformations from place of impact pulse application along length of sample.

1 dwg

Description

The invention relates to testing equipment, to strength tests.

A well-known stand for testing samples of materials for impact bending (RF patent No. 1350544, class G01N 3/30, 1987), containing a base, a falling load, installed with the possibility of interaction with the sample, a vertical guide for the falling load, a latch for the falling load and the capture of the sample .

The disadvantage of the stand is the lack of the possibility of studying energy absorption in the free and limited development of bending deformations from the point of application of the shock pulse along the length of the sample.

A known bench for testing samples of materials for impact bending (RF patent No. 1448241, class G01N 3/30, E21C 39/00, 1988) containing a base, a falling load, mounted to interact with the sample, a vertical guide for the falling load, a latch falling cargo and sample capture.

The disadvantage of the stand also lies in the lack of the possibility of studying energy absorption in the free and limited development of bending deformations from the point of application of the shock pulse along the length of the sample.

A known bench for testing samples of materials for impact bending (RF patent No. 1523955, class G01N 3/30, 1990), adopted as a prototype. The stand contains a base, a falling load, installed with the possibility of interaction with the sample, a vertical guide for the falling load, a latch for the falling load and the capture of the sample, pivotally connected to the base.

The disadvantage of the stand also lies in the lack of the possibility of studying energy absorption in the free and limited development of bending deformations from the point of application of the shock pulse along the length of the sample. This limits the amount of information in the study of energy absorption by bending deformations.

The technical result of the invention is to increase the amount of information by providing studies of energy absorption in the free and limited development of bending deformations from the point of application of the shock pulse along the length of the sample.

The technical result is achieved in that the stand for testing material samples for impact bending, comprising a base, a falling load, mounted to interact with the sample, a vertical guide for the falling load, a falling load retainer and a sample grip, pivotally connected to the base, according to the invention, it has additional grip of the specimen pivotally connected to the base, clamps of rotation of the grips, as well as a sensor of the angles of rotation of the grippers.

The drawing shows a diagram of the stand.

The stand for testing material samples for impact bending comprises a base 1, a falling load 2, mounted to interact with one end of the sample 3, a vertical guide 4 for the falling load 2, a clamp 5 for the falling load, and a gripper 6 of the sample pivotally connected to the base.

The stand has an additional grip 7 of the sample, pivotally connected to the base, latches 8, 9 rotation of the grippers, as well as a sensor 10 of the angle of rotation of the grippers.

The guide 4 for the falling load is made with the provision of permutation along the axis of the grips.

The stand has inertial weights 11 for fixing on the sample.

The stand has sensors 12 linear displacements installed with the possibility of recording the movement of the sample in the plane of the bend.

The number of additional captures 7 and their relative position is determined by the test tasks.

The stand works as follows.

The falling load 2 is discarded and a blow is applied at the end of the sample 3. After the rebound as a result of the elastic restoration of the sample, the load 2 is fixed on the guide 4. As a result of shock bending, the sample 3 is wave-like deformed between the grippers 6, 7 with a damped amplitude of deflection of the sample sections. Sensors 10 record the turns of the grips, sensors 12 record the deflection of the sample sections, and the process of attenuation of the bending strain of the sample is recorded from these measurements. At any stage of the tests, clamps 8 and 9 are used and, thereby, limit the freedom of transmission of deformations from one part of the sample to another. The place of application of the shock pulse is set by rearranging the guide 4. As a result of a series of tests for different values of shock pulses and different places of their application along the length of the sample, various inertial weights and their different locations, different sequences of restricting the propagation of deformations, the patterns of energy absorption by the material of the sample with free and limited transfer of bending deformations from the point of application of the shock pulse along the length of the sample.

The stand allows the study of energy absorption in new conditions - with the free and limited development of bending deformations from the point of application of the shock pulse along the length of the sample. This significantly increases the amount of information in the study of energy absorption by bending deformations.

Claims (1)

A stand for testing material samples for impact bending, comprising a base, a falling load, mounted to interact with the sample, a vertical guide for the falling load, a falling load retainer and a grip of the sample hinged to the base, characterized in that it has an additional grip of the sample, pivotally connected to the base, clamps for turning the grips, as well as angle sensors for turning the grips.