SU1539513A1 - Method of protecting strain gauge - Google Patents

Abstract

The invention relates to a measurement technique and can be used to protect measuring strain gauges under corrosive environments. The purpose of the invention is to increase the life of the load cell in an aggressive environment under pressure. The method includes installing a strain gauge 1 on the object under study, applying a layer of binder and covering it with a layer of ground filler 5 before the binder cures and after it is cured, forming an external corrosion-resistant protective layer 6 resistant to pressure of the working medium. 1 il.

Description

The invention relates to measuring equipment and can be used to protect measuring strain gauges in aggressive environments.

The purpose of the invention is to increase the reliability of the protection of load cells in an aggressive environment under pressure by forming a multilayer protective; e corrosion-resistant coating.

11a, a strain gauge. With a protective coating is schematically shown.

The strain gauge includes strain gauge I itself with a block 2 glued to the surface of the test object 3. The strain gauge is covered with a layer of binder 4, on the surface of which a layer of ground filler 5 is deposited, protected from the working medium by an external layer of ~ ₂₀ 6.

The load cell protection is as follows.

A resistance strain gauge 1 with a second block 25 is glued onto the object 3 under investigation. They are covered with a layer of binder 4. Prior to curing of the binder, a layer of ground filler is applied to its surface 5. After curing of the binder layer with ground filler, an external protective layer 6 is formed, which is resistant to aggressive media .

Each layer of a three-layer coating to protect the strain gauge performs a certain function. The first layer (layer ί binder 4) provides a high-quality bond with the surface of the load cell, the second layer (ground filler 5) - the connection of the first layer with an external protective coating. This relationship is as follows.

Each particle of the ground filler adheres with the lower part to the surface of the first layer, and the upper part with a protective anticorrosive. <

third layer, i.e. the second intermediate layer acts as a filler only in the surface part of the first layer and in the subsurface part of the outer protective layer. The third layer (outer protective layer 6) is anticorrosive. High-quality adhesion of the first layer with which the load cell is coated with the external anti-corrosion layer increases the reliability of the load cell protection AND the third layer.

Example. An epoxy resin is used as a binder, building cement is used as a powder filler, and liquid sodium glass is used as a protective layer.

Strain gauges do not lose working capacity after five months of content in a 1% solution of sulfuric acid.

Strain gauges with multilayer protection allow continuous monitoring of the condition of welds of devices operating under pressure of an aggressive environment at elevated temperatures, for example, in a 1% solution of sulfuric acid at a temperature of 180 ° C and a pressure of 15 NPa in hydroelectric devices.

Claims (1)

Claim The method of protecting the strain gauge from destruction by the working medium, including the installation of a strain gauge on the object under study, applying a layer of binder, curing the binder, forming an external protective layer, characterized in that, in order to increase the reliability of the protection of the strain gauge in an aggressive environment under pressure a layer of ground filler, and the outer protective layer is formed from a corrosion-resistant substance.