RU2330084C1 - Addition alloy on aluminium base for production of alloys on aluminium base - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: invention refers to compositions of additional alloys which can be used in production of alloys on an aluminium base, particularly silumins. The additional alloy contains following components, mas.%: boron 1.0-1.5; silicon 1.0-1.5; zirconium 1.0-1.5; beryllium 0.005-0.008; strontium 0.08-0.15; at least one component out a group: sodium, potassium, lithium 0.03-0.05; aluminium - the rest.

EFFECT: reduction of additional alloy consumption.

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Description

The invention relates to the field of metallurgy, in particular to compositions of ligatures that can be used in the production of alloys based on aluminum, mainly silumins.

Known ligature, containing, wt.%: Boron 0.5-3.0; silicon 0.6-12.0; aluminum - the rest [1]. The consumption of such a master alloy in the production of aluminum-based alloys is 18-31 g / kg.

The objective of the invention is to reduce the consumption of ligatures.

The technical result is achieved by the fact that the aluminum-based alloy for producing aluminum-based alloys, including boron and silicon, additionally contains zirconium, beryllium, strontium and at least one component from the group: sodium, potassium, lithium, in the following ratio of components , wt.%: boron 1.0-1.5; silicon 1.0-1.5; zirconium 1.0-1.5; beryllium 0.005-0.008; strontium 0.08-0.15; at least one component from the group: sodium, potassium, lithium 0.03-0.05; aluminum is the rest.

The table shows the composition of the ligature.

Table Components Composition, wt.%: one 2 3 four Boron 1,0 1.3 1.3 1,5 Silicon 1,5 1.3 1.3 1,0 Zirconium 1,5 1.3 1.3 1,0 Beryllium 0.005 0.0065 0.0065 0.008 Strontium 0.15 0.12 0.12 0.08 Sodium 0.05 - 0.02 - Potassium - 0.04 0.01 - Lithium - - 0.01 0,03 Aluminum rest rest rest rest

The consumption of the proposed ligature is ~ 10 g / kg of aluminum-based alloy.

In the composition of aluminum-based alloys, the components that make up the ligature manifest themselves as follows. Silicon provides fluidity of alloys. Beryllium promotes refining, reduces the negative effect of iron impurities. Boron and zirconium form intermetallides with aluminum, which are crystallization centers of aluminum-based solid solutions. The action of sodium, potassium, lithium and strontium is aimed at grinding crystals of eutectic silicon.

Ligature smelting is carried out in crucible furnaces (PTP-0.18, PTP-0.25; RTS-0.15). The introduction of sodium, potassium, lithium is carried out with mixtures of chloride and fluoride, respectively, sodium, potassium, lithium, at a temperature of 800-820 ° C.

The source of information

1. SU 1618774 A1, C22C 35/10, 1991.

Claims (1)

An aluminum-based master alloy for producing aluminum-based alloys containing boron and silicon, characterized in that it additionally contains zirconium, beryllium, strontium and at least one component from the group of sodium, potassium, lithium in the following ratio, wt.%: boron 1.0-1.5, silicon 1.0-1.5, zirconium 1.0-1.5, beryllium 0.005-0.008, strontium 0.08-0.15, at least one component from the sodium group, potassium, lithium 0.03-0.05; aluminum is the rest.