SU1611944A1 - Method of thermomagnetic working of articles of magnetically soft materials - Google Patents

Abstract

The invention relates to metallurgy, in particular to the thermomagnetic processing of soft magnetic materials, and can be used in the electrical and electronic industries. The goal is to improve the dynamic properties of products operating at frequencies of at least 1 kHz made of soft magnetic materials with a nickel content of less than 49% while maintaining the static magnetic properties. After the standard high-temperature annealing, the magnetic cores are heated to a temperature above the Curie point by 20–120 ° C, for example, 34KMP alloy to 600–700 ° C. Upon reaching the specified temperature, the magnetic field is switched on with a intensity of at least 800 A / m (10 Oe), held for 1 h and cooled to 200 ° C at a rate not higher than 200 ° C / h. The method provides improved dynamic properties: the specific losses are reduced by 15%, the no-load current is reduced by 11%, and the dynamic permeability is increased by 12%. 1 tab.

Description

The invention relates to the field of metallurgy, in particular, heat treatment of materials, mainly alloys with a rectangular hysteresis loop, used to make transformers for various purposes and can be used in the electrical and radioelectronic industry.

The aim of the invention is to improve the dynamic properties of products operating at frequencies of at least 1 kHz from soft magnetic materials with a nickel content of less than 49% while maintaining the static magnetic properties,

The method of thermomagnetic treatment of products from soft magnetic materials includes heating, isothermal exposure and cooling in a longitudinal magnetic field with a speed above 200 ° C / h, while

isothermal exposure is carried out at temperatures of 20-120 ° C above the Curie point,

The method is carried out as follows. After standard high-temperature annealing, the magnetic cores are heated to a temperature above 20 ° C, for example, 34KNMP alloys, to 600-700 ° C. When a given temperature is reached, a magnetic field of at least 800 A / m a) wire, hold for 1 hour and cool to 200 ° C at a speed above 200 ° C / h.

The table shows examples of heat treatment in a longitudinal magnetic field and the resulting static and dynamic properties of magnetic circuits made of 34KMP alloy, depending on the annealing mode.

The static magnetic properties of magnetic pipelines from a tape with a thickness of 0.02 mm (; class 34KNMP-11 class melt) meet the requirements of GOST for all the above modes. The highest Dynamic properties: minimum currents), the specific losses and the maximum values of the dynamic permeability are 1/10 of the magnetic conductor, which have been heat-treated in this way.

Thermomagnetic treatment above the Curie point at 120 ° C (above 700 ° C) cannot be conducted due to the specific design of the device for thermomagnetic treatment in a longitudinal magnetic field. The device contains copper rods with threaded joints, and at the specified temperature, there is a sintering of the thread at the joints of the rods with nuts,

Thermomagnetic processing below 600 ° C at 20 ° C above the Curie point does not give a tangible improvement in the dynamic properties of the material compared to the regime; a known method.

In comparison with the known method, the invention provides improved dynamic properties: the no-load current is reduced by 11%, the specific losses 5 are reduced by 15%, the dynamic permeability is increased by 12%.

Thus, the overall level of dynamic properties is improved by 11-15%.

Claims (1)

10 claims The method of thermomagnetic treatment of products made of soft magnetic materials, including heating, isothermal heat and cooling in a longitudinal magnetic field with a speed above 200 ° C / h, which is so that, in order to improve the dynamic properties of products operating on frequencies of at least 1 kHz, from 20 soft magnetic materials with a nickel content of less than 49%, while retaining their static magnetic properties, isothermal exposure is carried out at a temperature of 20-120 ° C above the point temperature 25 Curie.