SU1476514A1 - Tensed-deformed member state analyzer - Google Patents

Abstract

The invention relates to technological learning tools and can be used in the educational process. The aim of the invention is to improve the accuracy of the experiment and ensure its reproducibility. The device contains a loadable object, including at least three shells with fillers, each of which has a different thickness from the others and is made of an elastic material. The shell and the performer are in the form of glasses installed one inside the other without a gap, with a sealing lid associated with the loading means, which is a pneumatic system. The cavity of the inner cup is filled with incompressible fluid. On the side surface of each casing, strain gauges are installed that are associated with recording equipment. 1 il.

Description

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not pressures. The device contains a shell 1 and at least three elastic fillers 2-4, each of which has a different thickness from the others. The shell and fillers are in the form of cups installed with a gap in one another, forming insulated cavities 5 and hermetically sealed with a lid 6. The cavities 5 are filled with an incompressible fluid and are connected by channels 7 to the loading means, and on the side surface of the shell 1 are installed

strain gauges. Applying the same pressure to the cavity of the filler 2, then in the cavity of the fillers 3 and 4 and into the cavity between the filler 4 and the shell 1, axial and circumferential deformations of the shell 1 are recorded, according to which the stress-strain state of the object is judged. A change in the applied pressure is judged by the stress-strain state of the object in a given pressure range. 1 il.

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The invention relates to educational technology and can be used, for example, in the educational process.

The purpose of the invention is to improve the accuracy of the experiment. And ensure its reproducibility.

The drawing shows a diagram of the device.

The device contains a loadable object consisting of a shell 1 and at least three fillers 2-4, each of which has a different thickness from the others and is made of an elastic material, for example rubber. The shell and fillers are in the form of cups installed with a gap in one another, forming insulated cavities 5, and hermetically sealed with a cover 6. The cavities 5 of the inner cup and between the fillers are filled with an incompressible fluid and connected by channels 7 p. means of loading (not shown). On the side surface of the shell 1, strain gauges are installed, which are associated with recording equipment (not shown).

The device works as follows.

Submission of pressure to the cavity of the filler 2 from the loading means through channel 7, axial and circumferential deformations of shell 1 are recorded. Then, successively applying the same pressure in the cavity of fillers 3 and 4 and in the cavity between filler 4 and shell 1, axial and circumferential deformations of the shell 1.

Signs of the deformation of the shell 1, build graphically depending on the change in deformations on the thickness of the fillers 2-4, by which the stress-strain state of the object is judged.

Changing the pressure applied to the loaded object, get a family of graphical dependencies that characterize the stress-strain state of the object in a given range of pressures.

Claims (1)

The use of the proposed device makes it possible to increase the accuracy of the experiment when studying the stress-strain state of a shell with a variable filler thickness in a wide pressure range. Invention Formula A device for studying the stress-strain state of an object, comprising a loadable object, made in the form of a shell with a filler, a loading means and a recording organ, characterized in that, in order to increase the accuracy of the experiment and ensure its reproducibility, the loaded object has several additional fillers, each of which has a different thickness and is made of an elastic material, such as rubber, while the shell and fillers are made in the form of glasses installed with Azores dru- gom in one forming cavity insulated and hermetically closed by a cover, inner cup and the cavity between napolni314765144 the bodies are filled with an incompressible liquid; they are made in the form of strain sensors, are connected by channels with means installed on the lateral surface of the load, and the registering organ of the shell.