SU449987A1 - The method of hardening non-magnetic austenitic aging steels and alloys - Google Patents

Description

one

The invention relates to the field of strengthening treatment of non-magnetic austenitic steels and high-strength alloys.

A known method for strengthening nonmagnetic austenitic aging steels and alloys using phase hardening, including direct and reverse martensitic transformations.

However, there are a large number of steels and alloys in which, when heated to the transformation temperature, aging occurs, which increases the martensitic point Mn above room temperature. Therefore, such alloys after carrying out phase hardening (hardening) become magnetic and are unsuitable for use as a non-magnetic material.

In order to ensure non-magnetism and while maintaining the strength and plastic properties of the proposed method, the deformation is performed at the temperatures of the inverse martensitic transformation.

The proposed method of hardening steels and alloys provides for quenching from 1100-1150 ° C, cooling in liquid nitrogen, heating to reverse transformation temperatures (depending on the material, the reverse transformation temperature and 7 is in the range

650-850 ° C) and deformation at a temperature a at the transition. The choice of degree of deformation determines the desired level of strength and plastic properties.

The method is carried out as follows.

Steel 40Н24ЮЗФ has the following chemical composition,%: 0.33 С; 24.10 Ni; 1.2 V; 3.3 A1; the rest is iron. After quenching from 1100 ° C in water, austenitic billets with a cross section of 14X14 mm have the following mechanical properties: ABOUT 65 kg / mm; hundred2 25 kg / mm; 1 | C 56%; .

After carrying out the phase hardening (hardening + cooling in liquid nitrogen + heating to 800 ° 0.5 hours + cooling in water) strength properties increase in steel and plastic properties slightly decrease: (kg / mm, 60 kg / mm;

 i |) 48%. In this case, the martensitic point (the temperature at which 1% martensite is formed is taken as the martensitic point) rises above room temperature. If at

rotation to conduct 30% plastic deformation, the martensite point decreases below room temperature, and the strength properties significantly increase; at the same time plastic properties are retained on

high enough level: kg / mm;

AO, 2 72 kg / mm; 6 27%; d1) 44%. The hardening of the alloy during this treatment is due to the partial decomposition of the solid solution with the release of finely dispersed phases (VC and NiaAl) and an increase in the density of dislocations as a result of deformation. High-temperature deformation not only strengthens the steel, but also stabilizes austenite, lowering Mn below room temperature.

Subject invention

A method of hardening non-magnetic austenitic aging steels and alloys using phase hardening, including direct and reverse martensitic transformations, characterized in that, in order to ensure non-magnetic character while maintaining the strength and plastic properties, the deformation is performed at temperatures of reverse martensitic transformation.