SU449986A1 - The method of heat treatment of austenitic steels - Google Patents

Description

one

The invention relates to the hardening of high-strength austepitic steels and can be used in the engineering industry for the manufacture of parts that require high strength properties.

There is a method of heat treatment of austenitic steels, hardened by phase hardening, which includes successive operations: normalization at 900-1100 ° С with exposure from 0 to 15 h; aging in the austenitic (y) state of the scientific research institute at 550-670 ° С with different exposures from 0 to 15 h; cold treatment at the Nile temperature of the end of the martensitic transformation with an exposure time of 30 minutes to 1 hour; aging in the martensitic (a) state at 300–500 ° C with a exposure time from 0 to 5 h; austenization at 640-760 ° G for 3-4 h; aging in the austenitic (y) state at 500–600 ° C with an o-latch of up to 48 hours. However, steel treated in a known manner has relatively low strength properties, in particular, yield strength and temporary resistance.

In order to increase the strength properties of austenitic steels while maintaining high plastic properties in products of large sections, it is proposed, after cold treatment, to additionally carry out aging at a temperature 50-100 ° below the austenite transformation end point and cold treatment.

In carrying out the described method, the first additional aging operation is performed after cold treatment; it is a heating to a temperature of 50-100 ° below the end point of the austenitic transformation (Ak) with an exposure at this temperature of 1-15 hours. A second additional operation is performed after the first additional operation; it is cold reprocessing at a temperature below the end of the martensitic transformation.

Studies of the microstructure showed that martepsitic transformation during re-treatment with cold produced after intermediate aging occurs in new volumes. In addition, during cold reprocessing, the amount of martensite increases. The passage of the martensitic transformation in new volumes and the general increase in the amount of martensite lead to an increase in the amount of the α phase that has undergone phase hardening and, ultimately, to an increase in the strength of the steel after a full heat treatment cycle.

The proposed heat treatment includes the following eight operations: pormalization, and at 900-1100 ° C with a delay for aging in the in-state at 550--67 support from 0 to 15 hours; processing the temperature below the end of exposure with a shutter speed of 30 minutes to 1 hour; again intermediate aging in the -state at a temperature of 50-100 ° below the point Lk for 1-15 hours; re-cold working at a temperature of 50-100 ° below the end point of the martensitic transformation; aging in the ss state at 300–500 ° C with a delay of from 0 to 5 h; austenization at 640-760 ° C for 3-4 hours; final aging in the y-state at 500–600 ° С with an exposure time from 0 to 12 h.

The strength properties of iron-nickel-titanium-tungsten steel, after heat treatment by the described method, increase significantly, for example, the yield strength increases by an average of 25%; plastic

properties b and 1) 3 in this case somewhat decrease, remaining, however, at a sufficiently high level (6 22-26%; 1 | s 30-36%).

Subject invention

The method of heat treatment of austenitic steels, including normalization, aging in the austenitic state, cold treatment, aging in the martensitic state, normalization and final aging, characterized in that, in order to improve the mechanical properties, after the cold treatment, aging is additionally carried out at a temperature 50-100 ° below the end point of austenitic transformation and cold working.