SU1322125A2 - Corrosion instrument transducer for studying corrosion of current-conductive materials - Google Patents

Abstract

The invention relates to a testing technique, is an improvement of the invention on automaton. No. 930079 and can be used to assess the corrosion of conductive materials in liquid and gaseous media. The purpose of the additional invention is to expand the functionality of the transform (L C from 1C to N3 ate IV)

Description

the caller by providing measurements on alternating current. A device containing coaxial cylindrical electrode 1 1 -Aj separated by isolating insulator layers 8, 9 and connected electrically through one through inductive elements 5, has two electrical circuits passing one constant, another alternating current and containing electrodes 1-4 with working ends 12 on the side of the rotating scraper 13. Corrosion parameters are determined by the method of polarization resistance during the passage of direct current through the inductive elements 5, electrodes 1-4, their ends 12 and the electrically conducting medium and resist metric need for high

one

The invention relates to a test technique and can be used to assess the corrosion of current-carrying materials in liquid and gaseous media and is an improvement of the device according to the auto- mater. No. 930079,

The purpose of the invention is to enhance the functionality of the converter by making it possible to carry out measurements on alternating current.

FIG. 1 shows a general view of the transform in FIG. 2 - transducer surface, option.

The device contains coaxial cylindrical elements 1-4, electrically interconnected through one another by means of inductive elements 5, the common outputs of which form terminals 6 and 7 of the electrical circuit at a constant current. The electrodes 1–4 are separated by annular insulating layers 8 and 9, made of a dielectric material with different dielectric permeability and forming capacitive elements with adjacent cypindric electrode surfaces: capacitance C

layer 8 and capacity C with layer 9,

To the outer cylindrical surface of the electrode 1 and the internal qi

by passing the alternating current through the measuring probes 10, 11, the surfaces of the electrodes 1-4, including the ends 12, the resistance of which varies under the action of an aggressive environment, and parallel capacitive links formed by the cylindrical surfaces of the adjacent electrodes and insulating layers 8, 9 .. The increased reliability of operation and high sensitivity of the device is also achieved by the fact that the distance from the end 12 to the capacitive element with layer 9 is no more than 0.1 the distance from this link to the opposite end, and its capacity not less than 100 times the capacity containing layer 8. 2 3, p. f-ly, 2 ill.

The current surface of the electrode 4 is connected to current conductors 10 and 11 for AC measurements. On the side of the ends 12 of the electrodes 1-4, a scraper 13 is installed, made in the form of a comb, the teeth of which interact with the ends of the respective insulating layers and the drive is a reverse scraper in the form of a roller 14. The device is mounted in the housing 15, providing for the installation of a transducer 16. In order to increase the reliability and sensitivity of the device, the capacitive links can be made so that the distance from the end of the converter from the scraper side to the capacitive link is not. more than 0.1 the distance from this link to the opposite end, capacitance Cj and C, is selected from relation C. The end face of the converter on the side of the scraper 13 can also be formed as a body of rotation different from the plane, as shown in FIG. . 2

Corrosion gauge transducer works as follows.

The assembled transducer is installed in the opening of the pipe 16, along which the liquid or gaseous medium moves, which acts on the end

surface 11 electrodes 1-4. In the case of the operation of a converter in electrolytes, the corrosion rate of the material is determined by the method of polarization resistance, using in this case the electrical circuit of the converter by direct current passing through outputs 6 and 7, inductive elements 5, electrodes 1-4, ends of 12 electrodes and corrosive environment. When measuring the corrosion parameters of changes in the electrical resistance of a high-frequency alternating current device, an alternating high-frequency electric circuit is used, which includes measuring leads 10 and 11, face, internal and external cylindrical surfaces of electrodes 1-A, parallel capacitive links C, and Cd. The inductive elements 5 connecting the electrodes, due to the significant resistance to high frequency alternating current, prevent it from flowing through these electrode connections. The change in the electrical resistance of the circuit to high frequency alternating current depends on the effect of the corrosive medium on the end surfaces 12 of the electrodes 1-4. The depth of electrical resistivity, measured, for example, by a bridge (not shown) of an alternating current, determines the depth indicator of the total local or intergranular corrosion in aggressive media, regardless of its conductive properties.

15

Claims (3)

1. Corrosimetric converter for the study of corrosion of conductive materials according to Yu ed. No. 930079, characterized in that, in order to expand the functionality of the converter by providing measurements on an alternating current, it is provided with capacitive links arranged in insulating layers connecting adjacent electrodes, and the electrodes are electrically connected through one through inductive elements, 20 2. The converter according to claim 1, characterized in that, in order to increase its reliability and sensitivity, the capacitive links are made so that the distance 25 from the end of the converter from the side of the scraper to the capacitive link no more than 0, 1 distance from this link to the opposite end. 3. Converter on PP. 1 and 2, 30 characterized in that the capacity C of the link is selected from the relation C i C, where C is the capacity of the element formed by facing each other surfaces of adjacent 35 electrodes. 12 Editor S.Patrusheva Compiled by K.Afanasyev Tehred IopopovichKorrektor Order 2855/38 Circulation 776 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 V. But ha