SU1516837A1 - Centrifugal installation for testing specimens - Google Patents

Abstract

The invention relates to testing equipment, in particular, to installations for testing material samples for strength. The purpose of the invention is to expand the types of applied load by providing biaxial stretching of samples with alternating loading axes with shock compressive loads. On platform 1 there are two pairs of guides 3, perpendicular to each other, in which hydraulic cylinders 4-7 are installed, pistons 13 of which interact with stops 12 fixed to the guides. Using the four-bar 16, the hinges 15 of which are fixed to the shells of the hydraulic cylinders, synchronous movement of the pairs of hydraulic cylinders is carried out. Centrifugal weights 8 and 9, connected to grips 10 for sample 11, create tensile loads on the sample. When pressure is applied to the cavities of the cylinders, the sample 11 is subjected to shock compressive loads. 1 il.

Description

The invention relates to testing equipment, in particular, to installations for testing material samples for strength.

The aim of the invention is to expand the types of applied load by providing biaxial stretching of samples with alternating loading axes with shock compressive forces.

The drawing shows the installation diagram.

The installation comprises a platform 1 with a drive 2 of its rotation, two pairs of coaxially arranged and perpendicular to each other directions placed on it, in which hydraulic cylinders 4-7 are installed, interacting with centrifugal weights 8 and 9 connected to grips 10 for sample 11 On the guides 3, stops 12 are fixed, with which the pistons of 13 hydraulic cylinders interact. Dp supply pressure in the cavity of the hydraulic cylinders used source 14 pressure.

The hinges 15 of the four-berth 16 are fastened to the housings of the hydraulic cylinders, by means of which synchronous movement of coaxial pairs of hydraulic cylinders is carried out.

The installation works as follows.

The sample 11 is installed in the center of rotation of the platform 1, fixed by the grippers 10, to which the centrifugal weights 8 and 9 are connected, selected with the condition of providing the specified ratio of g-loading loads along the axis of the sample deformation. The drive 2 is turned on the platform 1. Under the action of centrifugal weights 8 and 9, the sample is subjected to biaxial stretching. To create shock compressive loads in the cavity of hydraulic cylinders rotating along a larger radius, pressure is supplied from pressure source 14. At the same time, the pistons 13 are advanced, which begin to interact with the stops 12 and displace the hydraulic cylinders towards the center of the platform. At the same time, with the help of an articulated four-bar 16, the second pair of hydraulic cylinders is moved to a larger radius of rotation. When the radius of rotation of the first pair of hydraulic cylinders becomes less than the radius of rotation of the second pair, under the action of

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Noah forces the second pair of hydraulic cylinders will begin to accelerate; about to move to a larger radius of rotation, and the first pair - to a smaller one. The movement of this pair of hydraulic cylinders will end with a blow to the respective centrifugal weights, which, through the respective grippers 10, will transfer the shock load to the sample 11. Pressure is then applied in the cavity of the second pair of hydraulic cylinders, as a result of which the pistons of the 13 hydraulic cylinders interact with the corresponding stops and a similar movement of the hydraulic cylinders occurs ending with another axis of the specimen. Before applying pressure to one pair of hydraulic cylinders, the pistons 13 of the other pair are pushed in to eliminate the interaction of these pistons with the stops 12 at the moment of impact. Thus, repeated loading of the sample 11 by shock compressive forces is carried out under conditions of its biaxial stretching.

Claims (1)

Invention Formula A centrifugal unit for testing specimens, containing a platform with a drive for its rotation, guides arranged coaxially on the guides of the two hydraulic cylinders and mounted on the platform with the possibility of interaction with the pistons of the hydraulic cylinder of the hydraulic cylinder so that, in order to expand the types of applied load by providing biaxial stretching of samples with alternating loading and compression axes, they are equipped with two additional guides, perpendicular The main arms are installed in the respective guides by two additional axial hydraulic cylinders, stops mounted on the guides and intended to interact with the corresponding pistons of the hydraulic cylinders, designed to move the hydraulic cylinders along the respective guide hinge four-link, the hinges of which are fixed on the housings of the corresponding hydraulic cylinders , and centrifugal weights connected to the corresponding grips for the sample,