SU108846A1 - The method of determining the propensity of austenitic steels of intergranular corrosion using high-frequency electrical resonance - Google Patents

Description

Creatures 1 of various methods for determining the propensity of steel to intercrystalline corrosion, for example, sounding, bending and iia testing.

The subject of the present invention is the method for determining the propensity of austenitic steel for intergranular corrosion using high-frequency electronic resonance.

Evaluation of meta, -1.1a for intergranular corrosion is made on the influence of the resonance of the oscillating circuit due to a change in the self-induction coil. ng1khod nyayes in contact with the test with the meta.all.

The reason for the change in the calcium inductance is the very magnetic interaction of the high-frequency field of the coil with the field of eddy currents, which occurs in the metal due to a change in the ground magnetic field. The interaction reduces to the imposition of eddy currents on the ground field of a shar-parallel field, as a result of which the self-induction becomes dependent on the resultant Hiero i, 1 and thus associated with eddy currents. B, for this, there is the possibility of determining the discontinuities of the meta part by change and the strength of the eddy currents. The change in eddy current nlotnost in the meta.tl, arising under the influence of high frequency due to corrosion of the metal, and represents a novelty of the proposal.

The electrical connection scheme (see drawing) is defined by: a high-frequency generator /, amplification and,), with an /// circuit and a lamp voltmeter / 1.

The excitement of the chambers of the prediagnostic state of 11L1 is fought with a two-stage .1em. The Katunzha self-induction measuring resonant circuit, which is in contact with the test area, penetrates the metal with a high-frequency magnetic field and causes eddy currents in He.vi, which, by reducing the self-induction of the circuit, loads electrical resonance. The electrically co.leoanp kch nuro, sryn from the resonant inca, are amplified in amplitude. These nzMeiieiiHH in the amplitude of the co. Hebee are the stronger, the sharper the expressions of me / crn. In determining the kinetics of the development of intercritaline to | | rose11n in the details of the op |) of one thermoregeneration, this marginalization takes the form:

, const

;

where the electrical circuit is a function of 1P1 intensively intercrystalline corrosion.

In order to achieve the density of the coitact of the coil contour with the inercum-vasma. The metal section on the installation uses a detachment of the item subject to this.tnk.

We offer | The method is determined by the definition of metal tonicity to interstitial corrosion, 1 ntnoy corrosion is more perfect and more sensitive than the existing methods of determination.

Its application makes it possible to give not only a qualitative, 110, and a definitive assessment of the tendency of metal i to corrosion intercrystallite.

The test proposed by the method of oschsheti.ch more quickly and does not meet the requirements of practice. Bytetractive testing permits this method to be used as: -jKeripeeenoro.

P r d d e m u p 3 o bre n e n

. The method of determining the size of the austenite grades of the intercrystalline corrosion corrosion steel, which is the same. That in it the exclusivity of the meta.ch.ch to corrosia is assessed by the disturbance of the echoelectronic resonance caused by a change in n.TOTHoctH rdhrevy.ch currents followed by the damage of the metal by intercrystalline Koppo3Heii.

2. The form of the method according to clause I. about the t I and I1 and the fact that it pez.pluzuete changes in the self-induction of the coil, finding its way in contact with the metal, thereby increasing the accuracy of determining the tendency of hundred, to intercrystallite | corrosion and speed increases and reliable testing.