SU913148A1 - Device for testing metal specimens under high temperatures - Google Patents

Description

The invention relates to a testing technique and can be used to test metal samples at high temperatures.

A device for testing metal samples at high temperatures ⁵ is known, containing current leads for heating, a temperature sensor, a strain sensor and recording devices [1].

A disadvantage of this device is the lack of a sealed chamber for the installation of the sample, which does not allow for testing at high temperatures due to significant oxidation of the sample material.

The closest to the invention to the technical essence and the achieved result is a device for testing metal samples at high temperatures, containing a sealed chamber, a current source, two water-cooled current leads, mounted on one of the chamber walls,

3

Sample clamps connected to the current leads and a measuring device connected to the sample [2].

A disadvantage of this device is the low accuracy of measurements due to the effect on the sample of electrodynamic perturbations that appear as a result of the interaction of electromagnetic fields that occur when working currents pass through the current leads and the sample.

The aim of the invention is to improve the accuracy of measurements by eliminating the influence of electrodynamic disturbances on the · sample deformation.

The goal is achieved by the fact that one of the elements is mounted for movement relative to the other clamp, and the device is equipped with an additional current lead fixed to the wall of the sealed chamber so that the two extreme current leads are connected to this clamp and one pole of the current source and the installation

at an equal distance from the average electrical power supply connected to another terminal and the other pole of the current source.

The drawing shows a diagram predla- ₅ Guy device.

The device contains a sealed chamber 1, on one wall of which current leads 2 - 4 are installed. Current leads 2 m3 are extreme, installed — equally spaced from the average current lead 4 and connected to one of the poles of the current source (not shown) through terminal 5 and with a movable clamp 6, and the average ι $

, current lead 4 connected to the other pole of the current source via the terminal 7 and the fixed clamp 8. The movable jaw 6 is connected to the outermost current conductors 2 and 3 by means of flexible _{current-meters} of lead elements 9 and K), and to compensate for the weight 6 and clamping elements 9 and 10, the clamp 6 is connected by a flexible coupling 11 with a load 12. The chamber 1 is equipped with a fitting 13 for sealing it ₂₅ or supplying an inert gas. The device is equipped with a measuring device 1 for measuring sample deformations.

The device works as follows. _thirty

Sample 15 is installed in terminals 6 and 8. When the current source is connected to the current leads 2-4, electrical current flows through them and sample 15, being closed simultaneously by two circuits formed by current leads 2 and 3 and sample 15, respectively. Sample 15 heats up and its thermal deformation is fixed by the measuring device 11 *. ₄₀ around the sample 15 and electrical connections 2 and 3 are formed interacting electric fields. The strength of the electrodynamic interaction of the electromagnetic field of one of the extreme current leads and sample 15 will be compensated by the strength of the electrodynamic interaction

the electromagnetic field of the other extreme current supply and the sample 15. As a result of this compensation, the sample 15 is not subjected to force deformation, leading to a distortion of the results of measuring its deformation.

The device allows to increase the measurement accuracy by eliminating the influence of electrodynamic perturbations on the deformation of the sample.

Claims (1)

Claim A device for testing metal samples at high temperatures, containing a sealed chamber, a current source, two water-cooled current leads mounted on one of the chamber walls, sample clamps connected to the current leads, and a measuring instrument connected to the sample, characterized in that increase the accuracy of measurements by eliminating the influence of electrodynamic disturbances on the deformation of the sample, one of the clamps is mounted to move relative to the other clamp, and the device provides EHO additional current supply, attached to a wall of the sealed chamber we conceal manner that the two outer current lead are connected to the movable terminal and one pole of the current source and are mounted at equal distance from the middle of the current lead connected to the other terminal and the other pole of the current source.