RU2025711C1 - Method of measuring destruction rate in corrosion mechanical tests of metallic materials - Google Patents

Abstract

FIELD: corrosion-mechanical tests. SUBSTANCE: method involves the steps of: placing a specimen of material to be tested in a corrosion medium, loading the specimen and subjecting it to electromagnetic field produced by a current loop disposed over the specimen, maintaining it for a predetermined time period, determining a change in inductance of the current loop, unloading the specimen and determining a change in inductance of the current loop and finally estimating a destruction rate from a parameter which is selected as the difference between inductance value of the current loop at the loaded specimen and unloaded one. EFFECT: enhanced reliability and accuracy, dominating destruction type determined. 1 dwg

Description

 The invention relates to methods for measuring the rate of destruction during corrosion-mechanical testing of metallic materials and is intended to determine the prevailing type of destruction.

 Known methods for measuring the rate of destruction during corrosion-mechanical testing of metals without taking into account their mechanical properties [1]. The disadvantage of these methods is the low reliability of determining the predominant type of destruction.

 Closest to the invention is a method for measuring the crack growth rate during corrosion and mechanical testing of metal structural materials, which allows to measure the electrical resistance of the sample before and after mechanical loading during its electrochemical polarization [2].

 The disadvantage of this method is the low reliability of determining the predominant type of destruction.

 The purpose of the invention is the determination of the predominant type of destruction.

 The essence of the method of measuring the rate of destruction during corrosion-mechanical testing of metallic materials, according to which a sample of the test material is placed in a corrosive medium, polarize it, load it and determine the parameter by which it judges the rate of destruction, is that before loading the sample is exposed to electromagnetic the field with the help of the frame with the current above it, withstand the set time, determine the change in the inductance of the frame with the current, unload the sample, redefine the change in the inductance value is revealed, and as the parameter by which the fracture rate is judged, the difference between the inductance values for the loaded and unloaded sample is selected.

 The drawing shows a diagram of a device for implementing the method.

 Exposure to the electromagnetic field is carried out when the ballasts 5, ammeters 6, and the magnetization and demagnetization device 4 are included, comprising a sleeve 1 of soft magnetic material, magnetizing 2 and measuring 3 windings. The magnitude of the inductance is measured by a measuring winding 3, a modeling device 7 and a microwebermeter 8 for a loaded and unloaded sample. Based on the obtained points, a fracture velocity curve is constructed - the difference of inductances with a loaded and unloaded sample, which is used to judge the predominance of the type of fracture (corrosion or mechanical).

 The proposed method allows to determine the prevailing type of destruction.

Claims (1)

 METHOD FOR MEASURING DESTRUCTION SPEED DURING CORROSION-MECHANICAL TESTS OF METAL MATERIALS, by which a sample of the test material is placed in a corrosive medium, polarized, loaded, and a parameter is determined by which the fracture rate is judged, which differs in order to determine the prevalence before loading, the sample is exposed to an electromagnetic field by means of a frame with a current above it, withstand the set time, the change in the value of the inductance of the frame is determined with current, unload the sample, again determine the change in the magnitude of the inductance, and as the parameter by which they judge the rate of destruction, choose the difference in the values of the inductance with the loaded and unloaded sample.

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