SU379861A1 - PIRITUPG "S ^ ^ '^' '1' ^ ~ .bHojU '! ^ .. - Google Patents

Description

HERMETIZED CAMERA FOR COMPLEX RESEARCH OF MINE PROPERTIES

The invention relates to the field of studying the physical properties of materials at high temperatures and can be used to comprehensively determine surface tension, density, wetting, melt flow, dielectric constant, electrical resistance, dielectric loss tangent.

The known sealed chamber for studying the properties of melts, consisting of high-temperature nets, a vacuum cap, measuring electrodes, a conveyor for samples, and a cooled pusher located around the nets, provided with guide trays.

For a comprehensive study of the surface and electrical properties of materials, improving the performance and reliability of the results of experiments, an installation is proposed that allows three to four times the number of samples without depressurization of the chamber, as well as the number of simultaneously measured parameters on one sample, to be increased by comparison with the known installation.

This task is accomplished by the following means.

About 30 substrates are placed on a rotary rotary conveyor table around a high-temperature furnace for using spreading or disc samples with

electrodes for studying electrical properties. The furnace has a through window and guide trays for feeding the next sample from the table to the working platform into the furnace.

and to push him out of the oven after the test. Such a device of the furnace and conveyor table increases the productivity of the installation, simplifying the experiment. It is important that in this case all the samples before getting

into the working high-temperature zone are in a vacuum or neutral medium without exposure to high temperature.

A simultaneous study of electrical properties is made possible by

moving electrode mounted on a bellows assembly.

The second electrode is a metal plate located on the working platform in the furnace.

Investigation of surface properties of melts is as follows (see drawing).

Iodine water-cooled cap / on the plate 2 is mounted high-temperature

resistance furnace with a split heater 3, current leads 4 and a screen system 5. It is installed on the vacuum system pipe 6. The temperature is controlled by a thermocouple outputted to the outside

through seal 7. Workspace

iieMH is formed of a refractory ceramic tube 8 with a through window and a lid 9. Outside the surface of the pipe is covered with a layer of molybdenum, which serves as an electric screen.

Regardless of the furnace, the stands for samples 10 and // are mounted. Stands can be installed horizontally using two bellows 12. On a circular conveyor table 13, 20-30 ceramic substrates or sample discs with electrodes are placed to study the electrical properties. With the help of a water-cooled pusher 14, the substrate or sample is moved from the table 13 to the guide tray 15 to the furnace, and after the experiment to the collection of 16 samples. The lower base of the sample collection table rotates around the cure on the balls and is a gear 17 forming an internal engagement with the drive bristle 18. The axis of the drive pinion is pulled out through the vacuum seal. Rotation of the pinion gear ensures the installation of a new model against the furnace window.

In the study of surface properties of metal samples or slag mounted on substrates, placed on the table 13 or in turn pushed into the furnace. After the drop is melted and aged, it is photographed or projected on the screen through an aperture 19 using the lens 20. If necessary, slag samples 21 are loaded into a glass tube with slip 22 and, using a magnetic pusher 23, are alternately dropped into an IV. It is possible to determine the parameters of a hanging drop 25.

Usually, instead of a dropper, a bellows assembly of a grounded electrode 26 is installed.

The second electrode is a contact plate 27 of a refractory metal. The conductor connected to it through the vacuum seal 7 is brought out to the outside and, using a switch, is connected to devices measuring electrical properties. The presence of a movable electrode makes it possible to study the effect of the electric field on wettability, for which the electrode is lowered until it touches the melt drop. In this case, current-melt current-melt systems can also be obtained.

Subject invention

A sealed chamber for complex investigation of melt properties, consisting of a high-temperature furnace, a vacuum cap and a pusher, characterized in that, for the purpose of a comprehensive investigation

electrical, interfacial and surface properties of melts and solid materials and increase research reliability; loading and unloading conveyors are arranged in it, made in the form of rotary tables arranged around the furnace and driven by rotating tables; the furnace is equipped with guide trays; a metal plate is mounted on the working platform Being an electrode,

and the other electrode is mounted on the bellows assembly and is made movable. Water s