SU85010A1 - Instrument for measuring the hardness of metal samples in a heated state - Google Patents

Description

Instruments are known for determining the hardness of metal samples in a heated state. These instruments have the disadvantage that they do not give the opportunity to experience hardness under the conditions of the working temperatures in which the metal or alloy under test operates.

This disadvantage is eliminated in the proposed device by the fact that the sample made in the form of a plate is subjected to electric heating during the test by means of hollow electrodes.

To protect the sample surface from oxidation at. when heated, the device is closed by a hermetic enclosure that isolates the device from the external atmosphere; the casing makes it possible to carry out tests under conditions of a neutral medium when the internal volume is filled with an inert gas.

The device is equipped with an electromechanical device for vertical and horizontal variations of the indenter relative to the test plate, with the aim of making repeated measurements of hardness in the sample areas adjacent to those previously tested.

The schematic drawing shows the device, a general view.

The device is mounted on a base plate 1, to which two hollow electrodes 2 are vertically fixed, isolated from the plate by gaskets 3; The electrodes are cooled by the water circulating in them, the direction of movement of which is indicated by arrows.

A voltage is applied to the electrodes from the source 4 of an electric current passed through the test plate 5; the latter is rigidly attached to one of the electrodes, and to the other electrode through a flexible current-carrying conductor 6, which serves to compress the shaped wire when heated.

The heating of the sample is monitored by means of an opto-oprometric device or a thermocouple 7 welded to the test area of the sample.

NO 85010

A bearing 8 is attached to one of the electrodes for a rotary stack 9 for rolls guide 10 and electromagnet 1. Zyvody 12 from the winding electromagppta attached to the support of the harness; The core 13 of the electromagnet is rigidly laminated with a polarizer 14, which is equipped with a diamond or other similar pnich.

Under the test specimen, nrot1H5 indenter, there is a fixed stop in the ceramic roller-15, which is pressed against the sample by a spring b.

After pagreva test plastic plastic to a predetermined temperature, turn off the nanotechnology, nptayuschee winding of the electromagnet; In this case, the core of the electromagnet with the detector is dropped on the plastic, and the tip of the burner is pressed into the surface of the sample. Through the assigned i) omezhut {), the winding of the electromagnet is supplied to Iair Jepie by time and the core with the detector is raised to its initial position.

Psmer SMO,; e, cooling, obrgz.a ve., Type of reprint, according to icpxiKJCTii p-ozmozhnost. G11t hardness of the studied nlaetinkn.

71l of re-measuring the hardness of the same temperature or for a different value of it serves as a fixture, which is obtained from a gear ccKTopja 17 n ratchet ectectromagnetizing device 18; when enabled; zr zhsnn on the clips 19 stored; nk rotates the rack 9 on the ise.

In order to pre () TV) an oxidized surface of the substrate when heated, the device is provided with a hermetic casing 20, tightly attached to the support of the pipe. Through the pipe 21, the air from under the casing can be pumped out and a negative pressure created, so that a sample can be passed through the sample.

If necessary, through the same pipe), the inside trap volume under the casing can be a flap. Pneert 1az (peon, argon, etc.) created by; n:, pm neutral atmosphere around the sample.

P re d m with t invented

Claims (2)

1.Prtsbor for nzmerepp tverdoetp metal sample in a heated eosto IUU based pas onredelenii tverdoetn heated plate electric pspytyvae.moy metal.ticheskoy largest otiechatka diamond indenter e NLI other tip is dipped into heated under nlastppku severity own weight, with n and otlnchayu1Ts the fact that, in order to redefine the hardness of the nrn of the same different conditions (temperature, vacuum, inert gas environment), it uses an electromechanical device for vertical and horizontal Identity of the idendent relative to the plate in its process is not known, and the whole device is placed in a sealed vacuum chamber filled with but inert gas. 2. The device according to claim 1, d. T and t and that is that its electromechanical device for shifting the IDENTOR is made in the form of a bracket mounted on the device plate, equipped with a toothed sector in the lower part and an electromagnetic switch designed to rotate the bracket around its vertical axis, and in its upper part by an electromagnet, the core of which is ekrenlen from the stockhod of the indenter and is intended to lower and suspend the electric current when the electromagnet is turned on and off.