SU777542A1 - Device for tensile testing of specimens - Google Patents

Description

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The invention relates to the field of technological strength, in particular the resistance of materials to the formation of hot cracks during welding.

A well-known testing machine for assessing the resistance of materials to the formation of hot cracks, containing a frame, grippers and a loading device, stretching a specimen with a gripping speed proportional to the temperature change during cooling of materials.

The closest to the invention in terms of technical essence and the achieved result is a device for testing tensile specimens containing a frame, a traverse, attachment points for a test specimen and a loading mechanism in the form of a hydraulic cylinder with a piston and brush connected with sample 2.

The devices do not allow the reproducible deformation rates to be reproduced, since a change in the resistance to deformation of the sample under the conditions of crystallization and further cooling of the material causes a change in the condition of its deformation during the test, which leads to a deviation of the deformation rate from the given value due to the elastic deformation of the bed. This makes it difficult to determine the critical rates of deformation of materials causing the appearance of cracks during welding. The purpose of the invention is to provide a steady rate of sample deformation.

This goal is achieved due to the fact that the device is equipped with a second piston, coaxially covering the hydrocyid rod, and the traverse and hydrocyliidus are hingedly connected to the bed.

In the drawing, a general view of the device for isolating samples of vegetation is shown.

15 A device for testing samples contains a frame 1, a yoke 2 with a movable 3 and a fixed 4 nodes of attachment of the test sample 5 and a loading mechanism in the form of a hydraulic cylinder 6 with a piston

2Q 7 and the rod 8, the second piston 9, coaxially covering the rod 8 of the hydraulic cylinder 6, the yoke 2 and the hydraulic cylinder 6 through the hinges 10 connected to the frame 1. The device operates as follows.

25 After installation and fixation of sample 5 in movable 3 and non-iodine 4 attachment points, preloading of bed 1 is performed by supplying oil to cavity A of the loading mechanism.

30 With this force, the force is from piston 9

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through the yoke 2 and the ty gi 10 is transferred to the frame 1 and upon reaching a value exceeding the deformation force of the sample, the cavity A is closed and the oil pressure in it due to the elasticity of the frame 1 remains unchanged. Sample 5 is then deformed. For this, oil is supplied to cavity B. The piston 7 is mixed to the right and deforms the sample 5 at a given speed. In this case, the force developed during deformation of the sample 5, on the one hand, via the movable attachment unit 3, the yoke 2 is transferred to the additional piston 9, on the other hand, through the movable attachment unit 3, is transmitted to the piston 7. The forces on the pistone 9 and 7 are mutually balanced , determined the pressure in the cavity B. The pressure in cavity A during the test remains unchanged, which ensures a constant stress state of the bed under conditions of an arbitrary change in the resistance to deformation of the sample 5. The device ensures constant about sko777542

to increase the specimen's deformation rate by maintaining the constant state of the stress state of the bed, which makes it possible to increase the accuracy of determining the technological strength of metals:

Claims (2)

Invention Formula A device for testing tensile specimens containing a frame, a traverse, attachment points for a test specimen and a loading mechanism in the form of a hydraulic cylinder with a piston and a rod connected to the specimen, characterized in that in order to ensure a constant deformation rate, it is equipped with a second piston , coaxially encompassing the hydraulic cylinder rod, and the traverse and the hydraulic cylinder are pivotally connected to the bed. Sources of information taken into account in the examination 1 USSR author's certificate L 440581, cl. G 01N 3/00, 1972. 2. USSR author's certificate No. 214177, cl. G 01N 3/02, 1966 (prototype).  KJ 2 4 8 / I S 6 7 7K. BUT