SU1201346A1 - Method of oxidizing stable austenitic steel - Google Patents

Abstract

METHOD OF OXIDATING STABLE AUST-1TNY STEEL, including surface activation and subsequent heating and exposure to superheated steam, which is that, in order to intensify the oxidation process, surface activation is carried out by plastic deformation at temperatures below the formation of martensite deformations with a degree above the critical.

Description

with

AI

05

t

The invention relates to chemical heat treatment, in particular, to methods for producing nonmetallic layers on the surface by oxidation.

The purpose of the invention is to intensify the process of oxidation of stable austenitic steels.

The method includes the following sequence of operations.

Activation of the steel surface in the austenitic state, consisting in plastic deformation with degrees of reduction above the critical one at temperatures below the formation temperature of the deformation martensite,

Vapor-thermal oxidation, consisting in heating and vyderzhke in an environment of superheated water vapor at temperatures not lower than the end of the reverse ° (- - - transformation and not higher than the austenization temperature.

Air cooling

Examples of the method on steel 12X18H12T depending on the degree of deformation, time of oxidation and temperature of oxidation are given in table. 1-3 respectively

2ПП / 462

The failure of the optimal variant of the method (example 4) with the variants that go beyond the limits of the claims (examples 1-3) and by known methods is carried out in table 4, where Mj is the deformation martensite formation temperature, T is the deformation temperature. Y - the degree of compression.

The application of the proposed method for the oxidation of stable austenitic steels provides for an increase in the efficiency of the oxidation process, expressed in an increase of up to 13 times the thickness of the oxide coating obtained in equal oxidation times, of the strength characteristics of the steel as a result of plastic deformation.

The activating effects of plastic deformation are maintained at room temperature for an arbitrarily long time, which makes it possible to carry out a vapor-oxidation practically at any time after the termination of the preliminary activating treatment.

Table 1

ABOUT

The proposed method 5

10 20 Note. In all examples T ,.

280,775 C; („Ks 20 min. Oxidation time, min. 10 20 40 60 Note Oxidation temperature, s T, 1

ABOUT

95

ABOUT

95

ABOUT

95

ABOUT

95

ABOUT

95

Note: Set up time 20 min

260 420 280 460 240 460 260 455 260 440 12013Дв4 Offered Well-Known (20% Y 0% cS-phase) films, μMkg / mm D a b c 2 Method 122 304 31 7 339 ee: Oxidation temperature of 7 7 S g Table AZ Thickness of oxide Microhardness, i

Not conducted

Deformation above Mj

(T.90fc,

4 20%)

Deformation below K with a degree below critical

(Td 20 s,

T 20%)

75С

Deformation below 20 min. MO with a degree greater than critical (TD 100 ° C,

t 20%)

Heating at T 1050 ° С

 From 1 2.5 h. Mercury ,, L 2.5-3 h

2 T 570Cooling at 670 ° С, -196С, heating L 20 min to 725 ° С (А)

Table 4

15

15

45

40

Y2

Claims (1)

METHOD FOR OXIDIZING STABLE AUSTENITIC STEEL, including surface activation and subsequent heating and soaking in superheated water vapor medium, characterized in that, in order to intensify the oxidation process, surface activation is carried out by plastic deformation at temperatures below the temperature of formation of deformation martensite with a degree above critical . >