SU706758A1 - Method of determining pyrometric effect of ceramics - Google Patents

Description

(54) METHOD FOR ASSOCIATING THE PYROMETRIC EFFECT OF CERAMICS

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The invention relates to the use of materials and can be used in ceramic; refractory and other industrial areas, such as metallurgy. The most widely used method is the determination of the pyrometric effect, which consists in comparing the pyrometric effect of a sample in the form of a truncated triangle pyramid of a fixed size with standart pyroscopes. Standard pyroscopy. also, in the form of truncated triangular pyramids, they are made of stone, quartz, feldspar, alumina, calcium carbonate, borax, and other materials and have the properties to fall when heated at a certain temperature under given heating conditions. When heated, a liquid phase is formed in the material of the pyroscope. As the liquid phase accumulates and its mobility increases, the pyroscope softens and under the action of its own weight smoothly bends (falls). The temperature at which the tip of the pyroscope will touch the pedestal is taken as the temperature of the pyroscope.

The known method does not allow the pyrometric effect to be determined under conditions, and can only be applied to calcining conditions in a gaseous medium of normal pressure.

The purpose of the invention is to expand the technological capabilities and increase the efficiency of the method.

This is achieved by the fact that dO is heated in pyroscopes in air, and further heating is carried out in vacuum at a residual pressure of 10-10 mm Hg. Art. until the fall of the pyroscopes.

Heating the pyroscopes to 600 ° C in the air provides carbon burnout and eliminates the undesirable effect of carbonization, and further heating in vacuum allows you to determine the pyrometric effect in products that are in service to the products during operation. Example. The pyrometric effect of standard pyroscopes of various numbers was determined. Small pyroscopes were used in the experiments. At first, the pyroscopes were heated on Air up to 600 C at a rate of JUS / min, and then in vacuum with the same speed with a residual pressure of mm Hg. Art. Temperature; Shdey. Pneroscopes were recorded with a platinum-platinum-Rd thermocouple with accuracy To obtain comparative data parallel with ftpoilitifljuibcb pyrometric definition,. Rezultatg determine the effect of the camp

Drop temperature of the pyroscope in air, ° С

000

010

020

1060

1070

090

The results of determination of sand sand effect

The temperature of the fall of the pyroscope in Vak) gum according to the proposed method, with

780

790

825

840

860

870

880

970

980 1000 1030 1060 1070

-. Table 2 of the effect of the same type of pyroscope in the air. For each pyroscope, five determinations of the pyrometric effect were carried out. Deviations in the same tests were ± 10 ° C. The averaged results of the determinations are given in Table. one ; - .. The difference in the temperature of the fall of the pyroscope when heated in vacuum and in air ranges from -100 to + 40 ° C. PRI mme R 2. The pyrometric effect of various ceramic materials was measured at a pressure of 10–10 mm Hg. and for comparison in air (see Table 2). Irometric pyroscope table

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, j Continuation of table 11