SU601320A1 - Master alloy - Google Patents

Description

one

The invention relates to the field of metallurgy and foundry production and can be used to increase the physicomechanical properties of iron and steel.

Known ligature of the following composition, wt.%:

Chrome. 20-28 Manganese 32-37 Aluminum Else 1, The disadvantage of a ligature is its weak modifying ability, as a result of which the alloys treated with this ligature, despite the presence of alloying elements in them, do not have sufficiently high strength properties.

The aim of the invention is to increase the strength properties of the processed alloys.

The goal is achieved by the fact that the proposed ligature containing aluminum, chromium, manganese, additionally contains α-rare earth metals and iron in the following ratio of components, wt.%:

Aluminum30-70

Chrome 10-25

Manganese10-30

Rare earth

metals2-35

Iron Else.

The presence in the ligature of rare-earth metals, in addition to imparting modifying ability to it, also increases the efficiency of the effect on the melt of alloying elements, which makes it possible to reduce their races. move

The proposed ligature is melted as follows.

Chromium and then manganese are introduced in molten and superheated to 1200-1300c aluminum in separate portions, the latter can be introduced either in pure form or in the form of ferroalloys. After complete dissolution of chromium and manganese, the rare-earth metals in the form of mischmetall or ferroceri are introduced into the melt, the melt is refined and poured into molds. The ligature can be stored for a long time in air, it is easily crushed and is well absorbed in the liquid metal. The melting point of the ligature, depending on the ratio of the components, is 810-1220 °.

An example. The effect of the ligature on the properties of iron and steel was investigated.

Ligatures of the following composition were smelted (see Table 1)., These ligatures were processed to the following composition, wt.%: Carbon - 3.22; silicon - 1.93, manganese - 0.77, sulfur - 0.03, phosphorus 0, 067, iron - the rest.

The amount of ligature introduced into the bucket in all cases was 0.5%.

The mechanical properties of cast iron after treatment with each ligature are given in table. 2,

The proposed ligature (1, 2 and 3) was also treated steel

35XL The following composition, weight. ": Carbon - Oj33, silicon - 0.38, manganese - 0.49, chromium - 0.88, geleo - the rest.

The amount of ligature introduced into the ladle was in each case 1% by weight of the liquid metal. Samples to determine the mechanical properties of 35XL steel were subjected to gakkalka in oil from a temperature of 860 ° C and tempering at an hour.

The mechanical properties of the original steel and the treated proposed 15. Are given in table. 3

Table 1

30 70 40 40

15 10 20 25

15 10 30 35

35 Else 8 - 2 - Table 2

285 269 229 197

The ligature is chrome, mar with so strong: tn alloys, it additionally contains rare earth metals and iron in the following ratio of components, wt.%:

Spreadsheets

30 Sources of information taken into account in the examination:

1, USSR Author's Certificate 298679, cl. C22 C 21/00, 1969.