SU1087819A1 - Device for cyclic testing of material specimens in volume-stressed state - Google Patents

Abstract

A DEVICE FOR CYCLIC TESTS OF MATERIAL SAMPLES AT A VOLUME STRESSED CONDITION, containing a pressure chamber with a stepped internal cavity, two pistons of different cross section installed in it, connected to the grippers for the sample, the pistons of the different pattern of the pistons have different patterns. The sample was tested asynchronously by changing the axial and lateral loads with an OIO equipped with a spring installed between the second piston and the end of the chamber cavity.

Description

00

h

oo

The invention relates to the study of the strength properties of materials, namely, devices for cyclic testing of materials under a bulk stress state.

A device for cyclically testing high-pressure material samples is known, comprising a pressure chamber, an exciter; associated with porysh, a rigid frame with co-axially filled pistons mounted on it is regulated by 1M amount of fluid bellows to which the grips of sample C are connected. The device closest to the invention in technical essence is a device for cyclic testing of samples of materials in bulk stress state, containing pressure chamber with a stepped internal cavity, two pistons of different cross sections connected to the grips for the sample, mounted in it, a reciprocating variable mechanism tim one of the pistons C2.

A disadvantage of the known devices is that their design does not provide for loading the sample asynchronously changing axial and lateral loads. The need for such tests is dictated by the needs of the practice, when very often the loading of the material with pulsating axial and lateral loads occurs asynchronously.

The aim of the invention is to test a sample asynchronously varying axial and lateral loads.

This goal is achieved by the fact that a device for cyclic testing of samples of materials in a volumetric stress state, comprising a pressure chamber with a stepped internal cavity, two pistons of different cross sections installed in it, connected to the grips for the sample, the mechanism for reciprocating one of pistons, provided with a spring installed between the second piston and the end of the cavity of the chamber.

With such a device design, the movement of pistons with a sample leads to an increase in lateral pressure and axial load on the sample, but some

axial load is perceived by the spring. There comes a time when the force of fluid pressure on the piston is balanced by the spring. In this state, the axial load is zero, and a further increase in lateral pressure, i.e. moving the pistons in the wrong direction leads to a change in the sign of the axial load.

0 The drawing shows the proposed device.

The device comprises a pressure chamber 1 with a stepped internal cavity, two pistons, an upper 2 and a lower 3, of different cross section. ki, grips 4, in which sample 5 is installed in a waterproofing sheath 6. Between the lower piston 3 and the end of the chamber cavity 1 is installed a spring 7, for example, conical. The grippers 4 are connected via dynamometers 8 to pistons 2 and 3. Piston 2 is connected to a mechanism (not shown) for reciprocating movement. As this mechanism can be used to drive a fatigue testing machine.

The device works as follows.

0 When the mechanism is turned on, the impacting of the reciprocating movement of the piston 2, the latter moves into the cavity of the chamber 1 and due to the difference in the areas of the pistons 2 and 3 in

The cavity of chamber I is pressurized on sample 5; piston 3

and spring 7. The deformation of the spring 7 leads to a gradual decrease in the axial force on the sample 5. If the movement of the piston 2 occurs in the original direction, then the tensile axial force goes into compression. Thus, in one cycle of reciprocating movement of the piston 2, the specimen experiences one loading with lateral pressure and two loads with axial loading. Adjusting the power parameters of the device is carried out by replacing the spring 7c

0 the selection of its characteristics of rigidity. Thus, the invention provides for the testing of a sample under a new type of loading, consisting in loading asynchronously varying axial and lateral loads.

Claims (1)

DEVICE FOR CYCLIC TESTS OF SAMPLES OF MATERIALS AT A VOLUME TENSIONED STATE, containing a pressure chamber with a stepped internal cavity, two pistons of different cross section installed in it associated with grippers for a sample, a mechanism for reciprocating movement of one of the pistons, characterized in that Asynchronously varying axial and lateral loads, it is equipped with a spring installed between the second piston and the end of the chamber cavity. S ω Oo m Q0 co> 108781