RU1797010C - Device for determining the hydrogen content in metals and alloys - Google Patents

Description

hydrogen evolved, placed vertically and connected to the bottom of the working tank, connected to the tank body, the neck of the loading hole with a ground stopper, the two-way valve connected to the stopper, the base of the working tank is placed at an angle of 30-45 ° to the horizontal, the axis of the loading hole is parallel to the base, and the side of the reservoir, opposite the base, is made in the form of a curved protrusion, the top of which is placed above the base of the neck of the feed hole.

The invention is as follows. By making the base of the working reservoir inclined and creating a curved protrusion on the side of the reservoir opposite to the base, it is released from it. of the test samples, hydrogen accumulates in the upper part of the working tank, where there is no loading hole, two-way valve and other elements of the device through which gas leakage can occur / t, i.e., gas accumulates in the volume limited by the continuous curved glass surface of the device on one side, and the surface of the measuring fluid on the other hand. This leads to a change in the quality requirements of the grinding section of the loading hole and the grinding of a two-way valve. In this device, they must prevent leakage of the measuring fluid (in the prototype, to prevent gas leakage) and, of course, the complexity of their manufacture is reduced. The location of the curved protrusion on the surface of the working reservoir, the top of which should be above the base of the neck of the feed opening, is essential. This is necessary so that the released hydrogen does not come into contact with. thin section of the feed hole and it did not spontaneously leak. The angle of inclination of the base of the working reservoir is selected from the conditions for maintaining sealing and simplifying the operation of the device. When the inclination angle of the working tank is less than 30 °, it is difficult to provide sealing, since the pressure on the plug of the loading hole increases due to the increase in the mass of the measuring fluid affecting the plug. In this case, it is necessary to use additional clamps of the plug and improve the quality of its grinding. At an angle of inclination of more than 45 °, the hydrogen generated from the samples falls under the plug of the loading hole, and toughens the quality requirements for the grinding section of the loading hole and two-way valve.

The drawing shows a diagram of a device

A device for determining the hydrogen content in metals and alloys comprises a working tank 1, the base of which is placed at an angle of 30-45 °, the working tank on the side opposite to the base has a curved protrusion, the top of which is located above the base of the neck of the loading hole 3 with a ground stopper, two-way valve 4 for connecting the working tank

5 with the atmosphere. To the working tank 1 in the lower part of the solder on the microburette 5 (it can also be connected using a rubber tube), which is placed vertically. The microburette is used to determine the amount of hydrogen which, after being extracted from the sample (s) 6, is collected on the side of the tank with a curved protrusion 2. The minimum amount of hydrogen determined by

5 of the invention depends on the inner diameter of the microburette; for a standard microcurette with a volume of 1 cm3, it is 0.01 cm. The relative detection limit of hydrogen depends on the mass of the sample. For

For samples weighing 10 g, it is 0.1 cm3 / 100 g, for samples weighing about 100 g, 0.01 cm3 / 100 g, i.e., the concentration sensitivity of the device increases with increasing mass of the analyzed sample and decreasing

5 inner diameter microburettes.

The device operates as follows.

Sample 6 is loaded into the working tank 1 through the opening 3. After this, through the thin section 3, the device is filled with alcohol-glycerin mixture (component ratio 1: 1) to the neck level and closed with a ground stopper. Next, the device is tilted and through the cock of the microbrew 5 of the cell 5, the volume is completely filled with the mixture (complete removal of air). Then the device is installed in the working position (angle of inclination 30-45 °) and with the help of the crane 4, the liquid level in the microburette 5 is set to zero. When the level of the measuring liquid is set to the initial position, a pear is used. From this moment, the hydrogen emission from the test samples is counted (time and microburette scale are recorded).

The apparatus makes it possible to estimate the amount of hydrogen released, as well as the kinetics of its evolution. To prevent thermal expansion of the alcohol-glycerin mixture, the device must be located indoors or in a container with a constant temperature. Simple and compact design of the device, low requirements for the quality of the sections of the feed opening and two-way valve, as well as low labor intensity

In operation, they can be used to identify the reasons for the poor ductility of finished products and to study the kinetics of the evolution of diffusion-mobile hydrogen from in-situ samples of metals and alloys.

Claims (1)

The claims A device for determining the hydrogen content in metals and alloys, including a working tank with an analyzed sample, a microburette for measuring released hydrogen, placed vertically and connected to the bottom of the working tank, connected to the tank body, the neck of the loading hole with a ground stopper, is connected A two-way valve connected to the cork, characterized in that, in order to simplify the design and operation, the base of the working reservoir is placed at an angle of 30-45 ° to the horizontal, the axis of the loading hole is parallel to the base, and the side of the reservoir opposite to the base is made in the form of a curved protrusion the apex of which is located above the base of the mouth of the feed opening.