SU1605163A1 - Arrangement for taking samples of metal from weldpool - Google Patents

Abstract

The device for sampling metal from the high-temperature zone of the weld pool is related to the analysis of the physicochemical and metallurgical characteristics of the welding processes, namely, the kinetics of gas saturation of the weld pool metal and the nature of chemical reactions occurring in it. The invention can be used in welding to analyze the process of vaporization, as well as in the development of new technologies for welding in active gaseous media. The purpose of the invention is to increase the efficiency of metal sampling in difficult welding conditions and the reliability of the results by reducing the desorption of dissolved gases during the crystallization of the sample metal. The essence of the invention is that a quartz tube is inserted into the hole drilled in the sample to be welded, inside which is a wire made of a material having an increased means to oxygen and nitrogen. 1 il.

Description

The invention relates to the field of studying the metallurgical and physicochemical features of welding processes, namely, the kinetics of gas saturation of the weld pool metal and the nature of chemical reactions occurring in it when conducting welding both in air and under water.

The aim of the invention is to increase the efficiency of metal sampling in difficult welding conditions and the reliability of the results by reducing the desorption of dissolved gases during the crystallization of the sample metal.

The drawing shows a diagram of the device.

The device for sampling metal from the weld pool contains a quartz tube 1 with aluminum wire 2, a thrust washer-3 and a spring 4 installed in fitting 5 which is located in a through-hole in weldable plate 6.

The device works as follows.

A fitting 5 with a quartz tube 1 inserted into it is deposited into the weld plate 6 having a through stepped hole with a thread. The hole diameter on the g-welder side is less than 1 mm and serves to displace air with argon from the molten metal flow area.

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but. The thickness of the metal layer separating the quartz tube from the surface of the plate is determined by the depth of the weld pool. The diameter of the middle hole corresponds to the outer diameter of the pipe. ,

The quartz tube is pressed to the upper cut of the middle hole by means of spring 4 through the thrust washer Q bu 3. By varying the depth of the fitting in the plate, the degree of compression of the spring can be adjusted and, accordingly, the area of the welding tube into which it pushes the tube. e. A sample is taken from co-f5 tora.

After the metal flows into the quartz tube, in order to prevent gas evolution, it is deoxidized using aluminum wire 2, the lower part of which is twisted into a spiral.

At the same time, dissolved oxygen is bound to α-stable alumina (), and nitrogen to alumina-25 MININ (A1N) nitride, thereby preventing their degassing and the formation of porosity. .

B If the process of welding under water is carried out, the external openings of the n fitting and the plate must be blind.

The metal samples obtained according to the given method with dimensions: diameter d 3 mm and length 1. 5-8 mm meet the requirements of the sample for analyzing the gas content by high-temperature extraction and alloying elements by mass spectroscopy.

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The metal sampling device from the welding machine provides the following advantages:

versatility for various welding methods for introducing a quartz tube into the weld pool from the root side;

reliable fixation of absorbed gases due to the transfer of their chemical compounds.

The use of the present invention due to the listed advantages will allow to increase the efficiency of the development of welding materials for welding in active gaseous media and to obtain tight welded joints with desired mechanical properties.

Claims (1)

DETAILED DESCRIPTION OF THE INVENTION A device for taking metal samples from a weld pool, containing a tank for flowing metal through an opening made in the weld sample from the root of the weld, in order to increase the efficiency of metal sampling in difficult welding conditions and the reliability of the results by reducing the desorption of dissolved gases during the crystallization of the sample metal; the device is equipped with a fitting with a spring-loaded quartz tube with a deoxidizing wire, and the fitting is installed in the through a stepped hole in the weld sample from the Korn root side, and the quartz tube is made with the possibility of advancing into the welded bath to a predetermined depth.