RU2143705C1 - Device measuring temperature coefficient of frequency - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: invention can be employed to determine temperature coefficient of frequency of samples from ferromagnetic material. Proposed device has base that carries two cases made of dielectric material placed in sequence. Excitation coils are positioned in cases along one axis. Tested sample passes through excitation coils. One of coils is connected to audio frequency generator and frequency meter. The other coil is connected to oscillograph. Permanent magnets are mounted by outer faces of cases. EFFECT: provision for measurement of temperature coefficient of frequency in samples of ferromagnetic material with specified measurement accuracy. 1 dwg

Description

 The invention relates to measuring technique and can be used to study the magnetomechanical properties of materials, namely to determine the temperature coefficient of the frequency of samples from ferromagnetic material.

 A known method and device for its implementation [1] when determining the characteristics of solids by the resonant frequency of oscillations of the test material to study the effect of temperature on the characteristics of elasticity. The method consists in the fact that through a periodically changing external force, vibrations of the object under study are excited, the amplitude of the displacements of one of the points of the object is measured, the phase shift between the exciting force and the amplitude of the displacements, and the excitation frequency are measured at the moment this dependence reaches its maximum value.

 A device for measuring the temperature coefficient of frequency [2], which contains a base with two housings of insulating material sequentially located on it at a certain distance with excitation coils installed horizontally on one axis through them, through which the test sample passes 140 mm long and 12x12 mm section ; in this case, one of the coils is connected to an audio frequency generator and a frequency meter, and the other to an oscilloscope recording the resonance frequency.

 The closest to the invention in technical essence is a magnetostrictive resonator used for stabilization and frequency selection, comprising a housing with excitation coils horizontally mounted on one axis, through which the test sample passes, a permanent magnet that creates a magnetizing field in the test sample; the latter is made of two rods placed coaxially with the resonant rod at its ends and fixed on the surface of the brackets installed inside the housing and in electrical contact with it [3].

 The purpose of the invention is the use of a magnetostrictive resonator for a new purpose for measuring the TFC of samples from ferromaterial.

 This goal is achieved by the fact that the excitation coils are installed in two cases of dielectric material located in series at a certain distance on the base, with one of the coils connected to an audio frequency generator and a frequency meter, and the other to a resonance recording oscilloscope, permanent magnets are installed at the outer ends of the cases.

 The drawing shows a diagram of a device for measuring the temperature coefficient of frequency in samples of ferromagnetic material.

 The device comprises a base 1 with two housings 2 and 3 sequentially located on it at a certain distance and made of insulating material with excitation coils 4 and 5 installed horizontally on one axis. One of the housings has a through hole 6 through which the sample 7 passes until it stops the bottom of the blind hole 8 of the housing 3. Permanent magnets 11 are installed from the outer ends 9, 10 of the housings.

 The device operates as follows. The base 1 with the elements placed on it is placed in a thermocryostat. An audio frequency generator and a frequency meter are connected to one of the coils. Electromagnetic oscillations occur in the sample caused by the excitation coil, and an oscilloscope recording these oscillations is connected to another coil. By changing the frequency with the help of a generator, the maximum signal amplitude that characterizes the resonant frequency is obtained.

 The inventive device provides temperature temperature coefficient control on samples of ferromagnetic material with a given measurement accuracy.

Sources of information
1. USSR author's certificate N 832352, G 01 H 13/00.

 2. Instruction KIO.054.484 "Alloy 21NKMT-VI. Heat treatment and control, NIIPM named after academician Kuznetsov (Moscow).

 3. USSR author's certificate N 904199, H 03 H 9/22 - prototype.

Claims (1)

 A device for measuring the temperature coefficient of frequency contains horizontally mounted on one axis of the excitation coil through which the test sample passes, permanent magnets that create a magnetizing field in the test sample, characterized in that the excitation coils are installed in two cases of dielectric material located in series at a certain distance based on, while one of the coils is connected to an audio frequency generator and a frequency meter, and the other to an oscilloscope, riruyuschemu resonance, permanent magnets are installed at the outer side of the case.