SU151690A1 - Method of increasing durability of metals and alloys under creep conditions at high temperatures - Google Patents

Description

The known methods of thermomechanical processing of metals are based on aia combination of phase and deformation work hardening, but since the deformation is usually performed at elevated or at room temperature, the hardening caused by the deformation is not stable and is easily removed when heated to temperatures above the recrystallization threshold. In addition, in order to obtain a noticeable hardening effect, considerable degrees of deformation are necessary, often reaching up to several tens of percent. Heat treatment operations such as quenching, accompanying the deformation hardening, lead to the formation of microcracks and other defects, thereby reducing the efficiency of mechanical processing.

The essence of the proposed method is that the metal or its product is preliminarily subjected to small (0.3-0.7%) plastic low-temperature deformation by static stretching, compressing, rolling or another type of treatment, followed by unloading and warming to room temperature. and then kept at room or intermediate temperature.

At the same time, weak deformation at very low temperatures (or -150 to -270 °) leads to significant crushing of the submicrostructure, and when heated and at rest at room or intermediate temperature, processes of restoring the crystal lattice can occur, while retaining certain features of the submicrostructure that provide enhanced plastic resistance. deformations.

The process of thermomechanical processing of refractory metals and parts of them is reduced to the following technological methods;:

№ 151690 -2 1) Static stretching, compression, rolling, or other types of processing with a deformation of not more than 0.3 - 7% and temperatures - 150 +

-270 °.

2) Unloading and warming to room temperature.

3) Exposure, rest at room temperature for several hours, and materials with a high melting point for several days.

According to the findings of the research institutes of the Academy of Sciences of the USSR, the Ukrainian Academy of Sciences, and the State Economic Council, the proposed method is notable for its novelty and has great industrial utility.

Subject invention

A method for increasing the durability of metals and alloys under creep conditions at high temperatures by thermomechanical treatment. differs by the fact that in order to create a small block structure of the material, increase its stability at temperatures higher than the threshold of recrystallization and increase creep resistance, metals and alloys or products made of them are subjected to preliminary small (0.3-7%) plastic deformation for example, stretching at a temperature ranging from -150 ° C to -270 ° C followed by unloading from processing and warming to room or intermediate temperatures and holding at that temperature.