RU82036U1 - DEVICE FOR DETERMINING DIFFUSION HYDROGEN - Google Patents

Abstract

A device for determining diffusion hydrogen, comprising a measuring chamber connected on one side to a pressure gauge, and on the other to a tap, a thermocouple lamp, a vacuum gauge, a pump and an additional tap, characterized in that the camera, taps and connections are made of metal, the ratio the volume of the manufactured chamber to the volume of the test sample is 2.7, a cover with gaskets is installed at one end of the chamber, which is equipped with a device for sealing it, fittings are installed on the side surfaces of the chamber, between The pump mechanism and a lamp mounted to napuskaniya atmosphere.

Description

The invention can be used in the field where welding of any metals and alloys can be applied, for example, in construction, especially industrially hazardous facilities, mechanical engineering, shipbuilding.

Known chromatographic method for determining the content of diffusion hydrogen in the metal of welded joints and weld metal [Welding metals GOST 23338-91]. It is based on the collection of hydrogen released from the surfaced sample and the measurement of its amount in the saturated gas stream. A device for determining hydrogen contains a metal reaction chamber connected to the chromatograph via an electromagnetic switch, a furnace for heating the chamber, a potentiometer, an integrator, units for controlling the switch, preparing gas chromatograph, preparing a detector for thermal conductivity, and a temperature controller. The disadvantage of this method is the complexity of the equipment used and the high cost of determining hydrogen.

A device for determining hydrogen by a vacuum method, selected as a prototype [GOST 23338-91]. The device is made of molybdenum glass and contains a measuring flask - chamber, vacuum valves, pressure gauge, pump, thermocouple lamp, vacuum gauge.

The device is quite fragile and, therefore, inconvenient to use. The measurement results have an error of ± 5%. The device has a fairly low sensitivity to the determination of small volumes of hydrogen.

The objective is to increase the operational characteristics of the device and improve the quality of the determined results, in particular, increase the sensitivity of measuring small volumes of hydrogen, which is typical for metals with a low diffusion coefficient.

A device is proposed for determining diffusion hydrogen including a metal chamber of a special small volume, on which side fittings are installed. At one end of the chamber there is a lid with gaskets, which is equipped with a device for sealing it. The camera is connected on one side to a manometer, and on the other through a vacuum valve with a thermocouple lamp and a vacuum gauge. Between the pump and the lamp there is a mechanism for letting in the atmosphere, for example, a tee tap. The small volume of the chamber is due to the need to obtain a small difference in the volumes of the chamber and the sample to determine small amounts of diffusion hydrogen.

The device comprises a manometer 1, a hydrogen collection chamber 2, a cover with gaskets 3, a valve 4, a thermocouple lamp 5, a vacuum gauge 6, a mechanism for letting in the atmosphere, for example, a tee valve 7, pump 8 (Figure 1). The chamber with a cover, the pump and the crane are made of metal.

A test sample with a volume of, for example, 21.8 cm ^{3 is} placed in a hydrogen collection chamber 2. The sample is a metal plate made of steel grade BSt3sp with surfacing made on it, from which diffusion hydrogen is released. The volume of the chamber, for example, is 58.61 cm ³ . The ratio of the volume of the manufactured chamber to the volume of the test sample is 2.7. A chamber, on the side surfaces of which fittings, taps and connections are made of stainless steel. The chamber is covered with a lid 3 and hermetically closed with a clamping bolt. Turn on the pump 8 and open the vacuum valves 4 and 7. The valve 7 is opened in the position in which the message pump - installation is carried out, thus air is first pumped out from the device using pump 8 to a pressure of ≈10 ^-2 mm. Hg, which is recorded using a lamp 5, the signal from which is fed to a vacuum gauge 6. The vacuum meter indicates the pressure in the device. Then they shut off the valve 4 and the pressure gauge valve. Hydrogen from the sample fills the difference in the volume of the hydrogen collection chamber and the sample, and the manometer reacts faster to pressure changes. At the end of the selection

hydrogen readings from a manometer, which are 98 mm. oil column. In accordance with the methodology for the analysis of hydrogen content [GOST 233338-91] determine:

The amount of hydrogen released by the formula

t - air temperature - 24 ° С

Vk - camera volume - 58.61 cm ³

Δh _H.p. - idle correction - 1 mm. It is built for the camera by conducting an experiment using the same technique without a sample, the volume of which is replaced by a glass standard.

Δh is the difference in liquid levels in the manometer-98 mm

The content of diffusion hydrogen related to 100 g of surfacing was determined by the formula:

The proposed device is more convenient in operation due to the use of metal parts. The quality of hydrogen determination is improved by increasing the sensitivity, which increases due to a decrease in the volume filled with hydrogen, compared with the prototype. With the use of a small-volume camera, the sensitivity of the device increased 2.84 times, regardless of the amount of hydrogen released. In this regard, the device allows you to measure small amounts of hydrogen, for example, 0.1-0.5 cm ³ 100 g n. me released from the deposited metal while the quality of the measurement of large quantities of hydrogen does not deteriorate.

Claims (1)

A device for determining diffusive hydrogen, comprising a measuring chamber connected on one side to a pressure gauge, and on the other to a tap, a thermocouple lamp, a vacuum gauge, a pump and an additional tap, characterized in that the chamber, taps and connections are made of metal, the ratio the volume of the manufactured chamber to the volume of the test sample is 2.7, a cap with gaskets is installed at one end of the chamber, which is equipped with a device for sealing it, fittings are installed on the side surfaces of the chamber, between The pump mechanism and a lamp mounted to napuskaniya atmosphere.