SU1226056A1 - Hydraulic device for measuring area of cross section - Google Patents

Abstract

The invention relates to a measurement technique and makes it possible to increase the reliability of a device for measuring the cross-sectional area of sample 12 by using two immiscible liquids 2 and 3 of different densities. Using a piston 5, the interface between the liquids is brought to the sample section of interest and the reading tube 4 is used to determine the volume change of the heavier liquid in vessel 1 and the corresponding displacement of the liquid separation plane using the sighting tube 10. 1 il. to to a o eaten o) mmW ////

Description

The invention relates to a measurement technique and can be used in mechanical engineering to determine the relative narrowing of the cross sectional area after rupture of flat and other forms of specimens subjected to a tensile test.

The purpose of the invention is to increase the reliability of the device in operation by eliminating the random nature of fluid leaks.

The drawing shows the proposed device, a General view.

The device contains a vessel 1 made of an optically transparent material, such as glass, or having a wall of the specified material, which is filled with two immiscible liquids 2 and 3 of different densities, which can be water-engine oil, water-mercury, etc. The vessel is communicated with the reading tube 4 installed vertically.

In the upper part of the vessel there is a piston 5, which by means of the rod 6 is connected with the movement mechanism 7 along the axis of the vessel, made, for example, in the form of a screw-nut pair. The rod 6 is connected to the rod 8 with a meter 9 position of the plane of the section of the liquid, which is made, for example, in the form of a sighting pipe 10 mounted on the micrometer screw 11. I

The device works as follows.

in a way.

The deformed sample 12, which can be of any shape, is installed in the cavity of vessel 1. Fill vessel 1 with two immiscible liquids 2 and 3 and, using the movement mechanism 7, piston 5 is introduced into the cavity of vessel 1. Under the action of piston 5, liquid 2 is displaced At the same time, the calculating tube 4 and at the same time the interface between liquids 2 and 3 is moved. After establishing the interface plane of liquids 2 and 3 to the section of the required measurement of the sample area 12, the piston 5 is stopped. In this case, in the reading tube 4

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a specific column of liquid 2 is established at a height bd. Using the micrometer screw 11, the optical axis of the sighting tube 10 is exposed.

in the plane of separation of liquids 2 and 3. Move the piston 5 by means of the mechanism 7 to the size R. for example, by 1 mm. This causes an increase in the height of the liquid column in the reference

tube 4 by the value of uh. The piston 5 is stopped, and the sighting tube 10 is moved to the new position of the liquid separation plane with the help of a micrometer screw 11 and a linear displacement / lR of the separation plane is determined.

The area F of the transverse cross section is calculated by the formula

20

F - S |

S

S

S

Where

- cross-sectional area of the vessel,

S ,, p is the cross-sectional area of the reference tube. Thus, the use of two immiscible liquids of different capacity, displaced relative to the sample by means of a piston, eliminates fluid loss during measurement 5, which increases the reliability of the device.

Claims (1)

Invention Formula A hydraulic device for measuring the cross-sectional area, containing a fluid container and a reading tube interconnected and mounted for movement along the vessel axis, a rod, characterized in that, in order to increase the reliability of the device in operation, the gauge is at least partially made from a transparent material and partially filled with another liquid, immiscible with the first and having a different chargeability, the rod is equipped with a piston located in the upper part of the vessel, and the device is equipped with a measuring instrument and shyusti section of the liquid.