SU1742696A1 - Method for determining chemical composition and metal and alloy structure - Google Patents

Abstract

Use: in the metallurgical industry for physical and chemical analysis. The essence of the invention: measurement of thermoEMF arising from the contact of cold and hot electrodes with the analyzed sample. A sample of the metal or alloy under investigation is made in the form of cold and hot electrodes having the same chemical composition and structure. The hot electrode is heated, attached to the thermocouple electrodes, and placed in heat insulating shells, except for the contact areas between the electrodes. The electrodes are brought into contact with one another with the formation of an electrical contact and the simultaneous fixation of thermoEMF and the temperature difference between the electrodes. 1 il.

Description

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This invention relates to the physicochemical analysis of metals and alloys.

The known method of determining the chemical composition and structure of metals and alloys, including heating the hot electrode, bringing the hot and cold electrodes into contact with the sample, and determining thermoEMF.

The disadvantage of this method is the low accuracy of thermopower measurement.

The closest in technical essence and the achieved result is the method of determining the chemical composition and structure of metals and alloys, including heating the hot electrode, bringing the hot and cold electrodes containing thermocouples into contact with the sample and measuring the resulting thermoelectric power.

The disadvantage of this method is that the accuracy in measuring thermoEMF is not high enough.

The aim of the invention is to improve the accuracy of determination.

The drawing shows a diagram explaining the proposed method.

The method is carried out as follows.

Two samples of the studied metal or alloy with the same chemical composition and structure are taken, then one of the samples is heated, then thermocouples are attached to them and placed in thermal insulation shells, after which the electrodes are brought into contact with one another. and simultaneously fix thermopower and temperature difference.

Example. When determining the silicon content in electrical steel, two conventional technologies are taken from the furnace |

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Geological samples - samples 1 and 2, cast in cups. One sample is cooled to 20 ° C, and the other to 100 ° C. Surface thermolars 3 and 4 and devices 5 and 6 measure the temperature of the samples, and device 7 measures their thermopower. The fixing of the readings of the instruments is made at the moment of the electrical contact of the samples between themselves. The thermopower value and temperature difference of the samples are judged on the silicon content in the steel. In this case, the hot sample 1 together with the thermocouple 3 is placed in the heat insulating sheath 8.

Due to the high thermal conductivity of the samples, the small heat capacity of the thermocouples and the absence of heat transfer between the samples, the temperatures of the surfaces of the samples and the thermocouples are equalized and can be measured with high accuracy.

Claims (1)

The invention of the method for determining the chemical composition and structure of metals and alloys by heating a hot electrode, contacting hot and cold electrodes containing thermocouples with a sample, and measuring the resulting thermoEMF, which is the determination of a sample of the metal or alloy under investigation is made in the form of cold and hot electrodes having the same chemical composition and structure, to which thermocouples are attached and placed in thermal insulation shells, except for contact of the electrodes with each other, after which the electrodes are brought into contact with one another with the formation of a point electrical contact and at the same time the thermopower and the temperature difference between the electrodes are fixed.