SU1647367A1 - Corrosive wear transducer - Google Patents

Abstract

This invention relates to the field of corrosive wear. The goal is to increase the reliability of the results. The sensor includes a housing 1, a holder arranged therein, made in the form of a sleeve 6 of a dielectric material with an internal annular shoulder, the surface of which is made conical, a stopper 2 placed in the sleeve 6, on a non-working end of which a cylindrical protrusion is made. The sensor contains a dielectric elastic gasket 9 in the form of a glass. 1 il.

Description

The invention relates to testing equipment and can be used in the study of local wear of pipelines.

The purpose of the invention is to increase the reliability of the results.

The drawing shows a diagram of the sensor.

The sensor comprises a metal housing 1, a cylindrical plug 2 of the material under study with a working end 3, a non-working end part 4 and a cylindrical protrusion 5 of its axis, a sample holder made in the form of a sleeve 6 made of a dielectric material (for example, fluoroplastic), placed in the housing 1, with an inner ring annular collar 7. nut 8, a protective dielectric gasket 9. The plug 2 is located in the sleeve 6 and is pressed by the nut 8 through the gasket 9 to the collar 7, while the corresponding surface of the plug and the inner annular ring the top of the shoulder 7 is made conical and mated each, respectively, with the working end 3 of the tube and the end face of the sleeve 6. The gasket 9 is made in the form of a cup, the outer surface 10 of which is in contact with the end 11 of the cylindrical axial protrusion 5, and the edges 12 are in contact with the non-working end of the tube 2. The sleeve 6 is installed tightly in the housing 1 with the emphasis of the annular protrusion 13 in the annular protrusion 14 on the housing 1.

The nut 8 is connected by a thread 15 to the housing 1. The housing 1 has a thread 16 for mounting 35 in the installation and an o-ring 17 for sealing. Plug 2 is inserted into sleeve 6, gasket 9 is installed, nut 8 is used to press plug 2 to sleeve 6, and due to the elasticity of the material of sleeve 6 and the taper of the surface of the shoulder 7, an additional tightness is created.

When the sample 2 is pressed with the nut 8, the gasket 9 is able to slip freely relative to the end of the non-working part of the sample 2, thereby preventing additional loads on the sample.

The sensor operates as follows.

The assembled sensor is mounted in a research installation, for example a pipeline, combining the working end 3 of the sample with the wall of the pipeline. A medium end face 3 of sample 2 is exposed for a predetermined time. Then the sensor is removed from the pipeline, the nut 8 is unscrewed, the gasket 9 and sample 2 are removed from the sleeve 6, sample 2 is prepared for weighing, and the latter is weighed. The weight loss of sample 2 for a given time is used to judge the corrosion rate.

Claims (1)

Claim Corrosion wear sensor, comprising a housing, a holder placed in it 25 made in the form of a sleeve of dielectric material with an inner annular collar, and a cylindrical tube made of the test material and a nut for pressing the tube placed in the sleeve, about 30 l, which means that, in order to to increase the reliability of the results, a cylindrical protrusion is made on the non-working end of the tube along its axis, the inner surface of the collar of the sleeve is conical, and the sensor is equipped with a dielectric elastic gasket covering the protrusion of the tube Oh in the form of a glass, the edges of which interact with the non-working end of the cork, and the outer surface of the bottom with the nut.