SU96583A1 - Ring for equipment purse nets - Google Patents

Description

Methods are known for measuring the electrical resistivity of non-magnetic metals by means of an oscillatory circuit included in the measuring arm of a differential circuit fed from a high-frequency lamp generator.

According to the invention, the oscillating circuit is tuned to the resonance of the currents at a frequency at which the depth of penetration of eddy currents into the sample under study is significantly less than its thickness; therefore, the resistance of the circuit changes only depending on the resistivity of the sample that is in the field of the inductance of the oscillating circuit. This eliminates the influence of sample sizes and configurations on measurement results.

A schematic of the instrument, in whose assistance the method is carried out, is shown in the drawing.

If a sample, made in the form of a metal plate, is brought to the coil L fed by alternating current, then eddy currents appear in it. The penetration depth of 6 of these gokov in the metal is determined by the formula b -,

where p is the electrical resistivity of the metal;

| l - magnetic permeability;

f is the frequency.

At 1.1 1 and / const, the depth of penetration depends only on p.

The inductor LI of the oscillating circuit is tuned to the resonance of the currents at the frequency of the high-frequency lamp generator L. This frequency is chosen so that the depth of penetration of the eddy currents into the sample under study is significantly less than its thickness.

No. 96583.- 2 -

and, therefore, the resistance of the circuit changed only depending on the resistivity of the metal.

The oscillatory circuit LiCj is included in one of the arms of the differential circuit. In the second shoulder include a temporary resistance. Both arms of the differential circuit are powered by Lo coils from the generator L {.

The currents of both shoulders are rectified by cuprox rectifiers B. The difference in currents is recorded with a null-galvanometer G. When measuring, the pointer of the pointing device is set to zero, changing the resistance provided with a limb, calibrated in units of the resistivity of the metal. On this limb, the measured resistivity of the metal is counted.

During mass inspection of parts on limb, the nominal value of p is set, and the deviation from this value is measured on the scale of a null-galvanometer.

The imprint details: Tp - transformer for powering the device; Lo - straightener; Dr - choke and C - Cs - electric filter capacitors; Cz - capacitor anode tseni generator; R and Cd are the resistance and capacitor of the generator grid circuit, L is the feedback coil.

Subject invention

A method for measuring the electrical resistivity of non-magnetic metals by means of an oscillating circuit included in the measuring arm of a differential circuit fed from a high-frequency lamp generator, characterized in that, in order to eliminate the influence of the size and configuration of the samples on the measurement results, the oscillating circuit adjusts the resonance of currents to at which the depth of penetration of eddy currents into the sample under study is significantly less than its thickness and, consequently, the contact resistance pa varies only depending on the resistivity of the sample metal present in the field katuschki oscillatory circuit inductance.

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Lr

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With Cs

L,

Methodical record

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