SU1193613A1 - Method of measuring coercive force of dispersion ferromagnetic materials - Google Patents

Abstract

A METHOD FOR MEASURING COERTSIVE FORCES OF DISPERSED FERROMAGNETIC MATERIALS, which consists in the fact that a sample of a certain bulk density is affected by a monotonously increasing constant magnetic field, o tl and h yy,. -r. Since in order to simplify the process, reduce labor intensity and improve measurement accuracy, a sample of dispersed material without preliminary preparation is placed in a cylindrical container, which is brought into rotation, is magnetized in a monotonically increasing constant magnetic field, perpendicular the axes of rotation of the cylindrical container, measure the value of the magnetic field strength, which corresponds to the maximum mechanical moment applied ", 1st to the container rd maintaining a constant speed and its rotation, and determine the coercive force H (. according to the relation (L with aks, Kc coercivity C with a force corresponding to the maximum mechanical moment. with CO OD 60 I I and W v g

Description

one

The invention relates to magnetic measurements and can be used to measure the coercive strain of dispersed ferromagnetic materials.

The circuit of the invention is to simplify the measurement process, reduce its labor intensity and increase accuracy by taking into account the mechanical moment that occurs when the sample is rotated in a magnetic field due to the rotational hysteresis, and its maximum value is achieved in the case of dispersed material in the field

rinc Wc

The method is carried out as follows.

in a way.

The test material, an E cylindrical container, is driven into rotation in a constant magnetic field, perpendicular to the axis of rotation of the cylindrical container, using a synchronous micromachine. Monotonously increasing the field and measuring its intensity with the help of a Hall sensor, determine the corresponding value of the mechanical moment, for example, by the phase of the voltage of the micromachine generator proportional to it. Obtaining the dependence of the moment on the field strength, the value of the field is determined at which the moment is maximum, and the noted value of the field is equal to twice the value of the coercive force.

193613

The drawing shows the experimental dependences of the mechanical moment on the field for two dispersed ferromagnetic materials (and 5 CrOj) of different natural density (concentration).

The indicated values of the coercive seed, determined by the proposed method, are in good agreement with the standard 24-25 kA / m for "FejO and 38.4 kA / m for CrOj), which do not depend on the bulk density (concentration) of the dispersed ferromagnet.

Thus, the proposed method for measuring the coercive force of dispersed ferromagnetic materials

compared with the existing ones, it has a lower labor intensity, which is associated with the simplicity of preparing samples of a dispersed ferromagnet for measurement; higher accuracy

since the measurement results do not depend on the bulk density (concentration) of the dispersed material, there are no moving contacts and an accurate measurement of the main parameters — the intensity of the field and the mechanical moment; a high measurement rate, which is a consequence of a decrease in the share of manual, low labor.

Claims (1)

METHOD FOR MEASURING THE COERCITIVE FORCE OF DISPERSED FERROMAGNETIC MATERIALS, which consists in the fact that a sample of a certain bulk density is affected by a monotonically increasing constant magnetic field, which is necessary in order to simplify the process and reduce the complexity and To increase the accuracy of measurement, a sample of dispersed material without preliminary preparation is placed in a cylindrical container, which is rotated, magnetized in a monotonically increasing constant magnetic field perpendicular to the axis rashchenija cylindrical container measured value of the magnetic field intensity, which corresponds to the maximum mechanical torque, prikladyvaey to the container to maintain a constant speed of rotation, and determining the coercive force H _t according to the relation ⁿ a = ⁿ ua * s ^{2> g} D ^e Ndaks "coercive force corresponding to the maximum mechanical moment. £ 19961 D ^W T | 5>