SU1093713A1 - Method for heat treating magnetically semihard deformable metastable austenitic alloys on iron and nickel base - Google Patents

Abstract

1. METHOD OF TERMIC TREATMENT OF MAGGEGO-BELIEF DEFORMABLE METASTABLE AUSTENITIC MELTES ON IRON-BASED IRON, including heating to a solid solution, cold plastic deformation, aging in austenitic, deformable, cold, deformed, cold, deformed, cold, plastic, warped skin, cold, plastic deformity, austerity, cold and cold in order to protect the magnetic properties. while maintaining the mechanical properties, after heating the solid solution, additional tempering is carried out, and final aging is carried out in a two-phase austenitic-martensitic state with the application of a magnetic field. 2. The method according to claim 1, which is tl and often that tempering is carried out in the temperature range 500-550 ° C for 1-2 hours. 3. The method according to claim 1, distinguishing itself from that the cold plastic deformation of the alloys lead with a speed of 80-100 mm / min. (L 4. Method according to claim 1, which is also distinguished by the fact that the final aging in the two-phase austenitic martensitic state is carried out in a temperature range of 550-650 ° C in a magnetic field of 400800 kA / m intensity with an output of 30 -60 minutes, while heating to aging temperature is carried out at a speed of 5-150 degrees / min. 00

Description

This invention relates to metallurgy, in particular to thermal imaging. This is a type of magnetically elastic deformable austenitic materials used in high-speed electric motors.

The known method of heat treatment of magnetic-tough alloys on an iron-nickel basis, including heating on a solid solution, tempering at 650-750 ° C in the austenitic state, cold rolling and aging J.

The disadvantages of the method are the difficulty of plastic deformation, as well as the low value of the coercive force (up to 6 A kA / m) after the final aging.

The closest in technical essence and the achieved effect is a method of heat treatment of a magnetic-tough alloy consisting in heating with a solid solution, cold plastic deformation, aging in the austenitic state, cooling and re-aging in the range of 450-520 ° C, providing coercive force values up to 8, 4 kA / m 2

However, the known method, preserving the high strength of the alloys on the basis of iron-nickel, does not allow to obtain increased values of the coercive force.

It is not possible to obtain the required values of the magnetic and strength properties of magnetically semi-rigid deformable metastable austenitic alloys on a nickel-iron basis by changing the modes of deformation or aging.

The purpose of the invention is to increase the magnetic properties of magnetic-deformed deformable metastable austenitic alloys on an iron-nickel base while maintaining high mechanical properties.

This goal is achieved by the fact that the method of heat treatment of magnetically elastic deformable metastable austenitic alloys on an iron-nickel base, including solid solution heating, cold plastic deformation, aging in the austenitic state, cooling and final aging, also includes tempering after heating to solid solution and the final aging is carried out in a two-phase austenitic-martensitic state with the application of a magnetic field.

Vacation is carried out in the temperature range of 500-550 ° C for 1-2 hours.

Cold plastic deformation is carried out at a speed of 80-100 mm / min. 5 Final aging in a two-phase austential-March1 state is carried out at 550-650С in a magnetic field with an intensity of 400-800 kA / m with a vacuum for 30-60 minutes, while heating to the aging temperature is carried out at a speed of 5-150С / min

Examples of the implementation of the method and properties of the alloys, obtained at the boundary and beyond the temperature and time parameters, are summarized in the table.

The proposed method of increasing the magnetic properties was tested on an alloy H26YT2B, obtained by open

va,%: carbon 0.013; nickel 25.87; titanium 2.15; aluminum 1,3; glands about the rest.

Billet alloy corresponding

Sizes 5 are heated to 850-900 ° C to obtain a homogeneous solid solution, then transferred to a furnace with a temperature of 500-550 ° C and kept in this furnace for 1-2 hours to carry out a start stabilizing austenite. After cooling to room temperature, well plastic deformation (pressing) was carried out at a speed of 80-100 mm / min. Billets before vyavlivaniya have low hardness (HB 160-190 kg / mm) and high plasticity ("G 40-45%, 70-75%).

After cold fermentation, the alloy is subjected to aging in austenitic corrosion at 700 ° C for 3 hours, followed by cooling in order to obtain a martensite structure. Then, the alloy is aged in a two-phase austenitic-martensitic state at 550-650C in a magnetic field with a strength of 400-800 kA / m with an exposure time of 30-60 minutes, while heating is carried out at a speed of 5-150 ° C / min.

When using heat treatment according to a known method for an alloy on an iron-nickel base, the coercive force values do not exceed 8 kA / Mt. However, the use of the proposed heat treatment method for the alloy H26JT2B allows, in the first place, to build up in a cold state followed by induction melting. The composition of the alloy was strengthened, and, secondly, to obtain the coercive force values up to 2426 kA / m. Thus, the use of pred. The proposed thermal treatment method allows to significantly increase 0937134 H value (metastable austenitic alloys on a nickel – iron basis and use this class of alloys for cheap hysteresis electric motors, which allow the use of alloys such as 12GN, 20NU or 22NU at present,

Claims (4)

1. METHOD FOR THERMAL TREATMENT OF MAGNETO-SEMI-DEFORMABLE WELL-BASED AUSTENITIC ALLOYS ON THE IRON-NICKEL BASIS, which includes heating on solid solution, cold plastic deformation, aging in austenitic state, which is improved by mechanical cooling, cooling, and further heating on the solid solution additionally spend vacation, and the final aging is carried out in a two-phase austenitic-martensitic state with the application of magnetic th field. 2. The method according to π. 1, about t l and chachayuschey so that the vacation is carried out in the temperature range 500-550 ° C for 1-2 hours 3. The method of pop. 1, the difference is that cold plastic deformation of the alloys is carried out at a speed of 80-100 mm / min. 4. The method of pop. 1, characterized in that the final aging in a two-phase austenitic martensitic state is carried out in the temperature range 550-650 ° C in a magnetic field with a strength of 400800 kA / m with a delay of 30-60 minutes, and heating to an aging temperature is carried out at a speed of 5- 150 deg / min. 1 1093713