RU2578276C1 - Steel - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: invention relates to ferrous metallurgy, namely to compositions of steel used for making articles operating under conditions of abrupt temperature drops. Steel contains, wt%: carbon 0.8-1.2, silicon 0.8-1.2, manganese 10.0-13.0, chrome 10.0-17.0, titanium 0.01-0.02, vanadium 1.0 -1.2, phosphorus 0.03-0.08, calcium 0.0001-0.0003, hafnium 3.0-4.0, nickel 4.0-5.0, iron as balance.

EFFECT: higher heat resistance of steel at temperature drops from 20 to 800 °C.

1 cl, 1 tbl

Description

The invention relates to the field of ferrous metallurgy, in particular to compositions of steel, which can be used for the manufacture of products operating in conditions of sudden temperature changes.

Known steel containing, wt.%: Carbon 0.8-1.5; silicon 0.8-1.5; manganese 8.0-13.5; chrome 10.0-17.0; titanium 0.01-0.2; vanadium 0.01-0.5; phosphorus 0.1-0.8; iron - the rest [1]. Heat resistance of steel is from 12 to 49 heat shifts.

The objective of the invention is to increase the heat resistance of steel.

The technical result is achieved in that the steel containing carbon, silicon, manganese, chromium, titanium, vanadium, phosphorus, iron, additionally contains calcium, hafnium and nickel, with the following ratio of components, wt.%: Carbon 0.8-1.2 ; silicon 0.8-1.2; manganese 10.0-13.0; chrome 10.0-17.0; titanium 0.01-0.02; vanadium 1.0-1.2; phosphorus 0.03-0.08; calcium 0.0001-0.0003; hafnium 3.0-4.0; nickel 4.0-5.0; iron is the rest.

The table shows the compositions of steel.

The heat resistance of steel will be ~ 100 heat exchangers (from 20 to 800 ° C) for all compositions shown in the table.

Increasing the strength of steel is achieved due to the complex effect of the components that make up its composition. Manganese and chromium provide increased hardness and heat resistance of the alloy. Nickel, vanadium, hafnium prevent the occurrence and development of cracks at temperature extremes, increase the strength of steel. Phosphorus slightly increases the strength of steel. Titanium helps to chop grain. Calcium deoxidizes the alloy.

Steel can be smelted in electric furnaces. Steel is subject to heat treatment according to the regime: quenching at a temperature of 1180 ° C in air; aging at a temperature of 750-800 ° C.

The source of information

1. SU 827584, C22C 38/38, 1981.

Claims (1)

Steel containing carbon, silicon, manganese, chromium, titanium, vanadium, phosphorus, iron, characterized in that it additionally contains calcium, hafnium and nickel, in the following ratio, wt.%:
carbon 0.8-1.2 silicon 0.8-1.2 manganese 10.0-13.0 chromium 10.0-17.0 titanium 0.01-0.02 vanadium 1.0-1.2 phosphorus 0.03-0.08 calcium 0.0001-0.0003 hafnium 3.0-4.0 nickel 4.0-5.0 iron rest