SU620881A1 - Device for determining oxygen activity in metallurgical melts - Google Patents

Description

(54) USGROIVVO FOR MEDIATED OXYGEN ACTIVITY IN METAL 1FS11CH MELTES

Claims (2)

The invention retracts to physical analysis of materials. A device is known for detecting an orol in molten metals f consisting of a sensor a in a wwe solid electrolyte tube,. eah1% sing at one end, the current collector and the flj comparison electrode. The disadvantage of such a device is the effect that the melt temperature does not differ on the readings of the measuring device. The closest technical solution to the proposed device is; consisting of a sensor, made in the form of a solid electrolyte case with two cells, filled with different electrodes compared to current collectors and a metal case t J The disadvantage of this device is the low temperature resistance of the solid electrolyte made in the form of a single case with two channels, due to significant internal stresses in a solid electrolyte of complex size and an unsatisfactory crystalline structure caused by the formation of a product in a massive and powerful mold. Therefore, solid electrolytes of this form are prone to thermal destruction when immersed in the melt and have low reliability. Objective9 invented is enhanced device location. For this purpose, in the npejjyiaraeMOM device, a solid electrolyte sensor is made and is shaped, with the comparison being separated by an insulating charge; which can be made of TWO or more alternating layers with ionic and electronic water. The drawing shows a diagram of the device. . The device for determining the actuality of oxygen in metallurgical melts consists of solid electrolyte 1 U: -shaped, made of refractory material, dioxide; zirconium, alundum, etc., two electrodes of comparison 2 and 3, differ between each other by oxygen activity; backfill 4 between reference electrodes made of high-temperature powdered material, for example alumina; current collectors. 5-7, made of tungsten or molybdenum; a metal shieldbro protective KCMScyxa 8, which serves to protect the sensor from mechanical damage and impact of the spike; Koimyca 9 sensor, made of high-temperature material, such as chamotte of the shank of sensor 10, made of material with high quality and easy to connect sensor, with a plastic device and a cardboard box I1. To exclude the redistribution of oxygen between the electrodes and the electrical contact between them, backfilling 4 between the spectroscopes 2 and 3 can be done from the remote or alternating layers of real and natural. ion.non conduction, for example, ion powder 1; 1Irconi, and mainly electronic conductivity, for example, from the core. Meta O,. The device works in the following manner. When the sensor is immersed in a molten metal, the Mio B-casing “:” spreads out and electrical power E I and EI appear in the center-radiating elements. .f by measuring how you can determine the oxygen activity in the test; ., using the well-known equation EecOo-Edepawa l -... h where Uo and OQ-, respectively, of the activity of the detected carbon (oxygen) in the reference electrodes 2 and 3j are given by | di from the magnitude of the known, fixed for temperature is equal to each other. Using a U-shaped IIO solid electrolyte will make the sensitive part of the sensor less stressful, reduce the tendency of solid electrolyte to thermal destruction when immersed in a high-temperature environment and, therefore, significantly increase reliably be of the entire device. At the same time, the proposed device retains all the advantages of a sensor with two comparison electrodes, the head of which is the absence of the need to use an electrolyte with a constant and known fraction of ionic conductivity. Invention 1. Device for. determine the activity of oxygen & metal melts, containing a sensor in the form of a cover of solid electrolyte with cheygsha, filled electrodes, compared with oxygen activity, current pick-up and closure of a metal metal casing, in order to increase the reliability of the device, the sensor is a solid electrolyte J is made using a sample of the form, the electrode is attached to the comparison section with an insulating charge. 2. The device according to Clause 1, that is, that it is insulated, that the insulating "dump" is made of two or more alternating layers with an oxide. and electron conductivity. Sources of information taken into account in the examination .1. For France of France About 2279097 cl. O01M27 / 2e, 1976.. .2.1 Author's certificate (ХСР. 441505, class Q01 N27 / 46, 1973.