SU640200A1 - Method of quantitative analysis of metallic alloys - Google Patents

Description

The invention relates to the field of quantitative analysis of the composition of metallic binary or more complex alloys, in which the percentage of two components is unknown at a constant concentration of other components, to the field of development of alloys. The qualitative composition of the analyzed alloy should be known.

Known methods for the quantitative analysis of metal alloys: electrochemical spectral, spectrophotometric 1.

Of the known methods for the quantitative analysis of metal alloys, the closest to the proposed method is the method for the quantitative analysis of metal alloys, which consists in exciting the arc between two electrodes, one of which is the sample under study and measuring the physicochemical characteristics of the arc 2J.

However, for the quantitative analysis of this method requires a complex, expensive equipment, high qualifications of workers conducting the analysis. The disadvantages should also include the high complexity of the analysis, the duration of preparation and analysis, due to the need to perform the interpretation of the spectra, the difficulty

Analysis of samples with a high content of the analyzed elements.

The purpose of the invention is to simplify the measurement process and speed up the analysis.

This goal is achieved by measuring the voltage of the low-pressure electric arc at a fixed current, which is used to judge the quantitative composition of the alloy components.

The pressure of the external gaseous medium (air) in the arc-burning area should be no more than 10 Torr, and its lower level is not critical.

A part from the studied alloy of any size and shape is connected by a conductor to the negative pole of a DC source with a voltage of 30-40 V. Thus, a small rechargeable battery or a full-wave rectifier providing an arc current of up to 25 A can be used as a source. through a rheostat, which serves to adjust the arc current, is connected to a tungsten anode, made in the form of a continuous cylinder with a diameter of 5-10 mm with flat ends. The surface protected from contamination of the part from the analyzed Silva is touched by the flat end face of the tungsten anode, and then the following distance is taken :; 1 2 mm. When electrodes are opened, ioso electric arc. The burning voltage of this arc is removed and directly from the aiod and the cathode part, and the magnitude of this voltage is measured using a memory voltmeter or oscilloscope. When conducting a quantitative analysis of the alloys of this system, it is sufficient once to carry out measurements of the arc burning voltage with cathodes made of alloys with the content of components on the arc current and not to find the table. Using the following data to further analyze the alloys of this system, do not resort to the use of standards and calibration charts not only on this, but on any similar measuring installation in other laboratories and institutions. The current of the electric arc is chosen so that the difference in the application of arc grief from pure

The original gear of the alloy was maxim. h ym.

Q about p y

h a and 3 about b and e and

A method for the quantitative analysis of metal snaves, consisting in initiating an arc between two electrodes, one of which is the test sample, and measuring the orchestral chemical characteristics of the arc, which, in order to simplify the measurement process and shorten the analysis time, measure the voltage of the low-voltage electric arc is set to a fixed current, but which is judged on the quantitative composition of the components of the snlav.

Sources of information, 1; Rin) s in vni.maiiie nri examination 1. Likov M. Physico-chemical methods of apalysis, M., 197-1, p. 2G, 101.

2. USSR author's certificate NO 139862, cl. G G1N 21/56, 1959.