SU712451A1 - Method of processing aluminium-silicon alloys - Google Patents

Description

one

The invention relates to the field of non-ferrous metallurgy, in particular, to methods for producing non-ferrous metal alloys, and can be used in the processing of aluminum-silicon alloys with fluxes for the purpose of refining and modifying them.

There is a method of processing aluminum-silicon alloys, which includes the introduction into the molten metal of a salt mixture containing an alkali metal halide. Melt processing is mainly carried out with fluxes related to the KC1-NaCl-NaF salt system or to the KC1-NaCl-NaF-AlFa system. , 2.

A disadvantage of the known method is that when modifying silumin and sodium, the modifying effect is not lasting for about 30 minutes after the molten metal is treated with sodium fluxes, after which, for prolonged casting of the metal into molds, the metal is re-modified. The sodium modified metal also does not retain the modifying effect after its remelting. Alloys modified with sodium, have a higher tendency to absorb hydrogen from the moisture of the surrounding atmosphere and the mold with the formation of gas porosity, which reduces the density and tightness of castings.

The purpose of the invention is to increase the quality of the alloy and increase the duration of the modifying effect.

This is achieved by using potassium fluoride as the halide.

The essence of the method is that the modification of aluminum-silicon alloys is produced by potassium from fluoride.

potassium, which is added to the salt of potassium chloride and aluminum fluoride (or potassium chloride and potassium cryolite).

Potassium fluoride must first be freed from water by drying at 250-ZOO C to a constant weight, then fused with potassium chloride and aluminum fluoride, after which it can be used as a flux.

Potassium cryolite should be introduced into the fluxes to increase their refining ability. Compared to sodium cryolite, it has higher surface properties: lower surface tension, contact angle

wetting and time of spreading of the drop, which will provide fluxes with the best refining ability.

Potassium, more effectively than sodium, modifies the silicon eutectic in silumines, as a result of which strength and ductility are significantly increased. After potassium modification, alloys of the type AL2 and AL4 are for a long time (more than 3 hours, the modified structure, stable and high mechanical properties are retained).

The method of treating aluminum-silicon alloys with flux is carried out in the following order:

1. Potassium fluoride is freed from water by drying at 200-250 ° C to a constant weight, then fused with potassium chloride in a ratio of CU: KCl, 2: 3 by weight.

2. In salt melt, aluminum fluoride AIFa is, if necessary, added to bind a portion of potassium fluoride to KsAlFe potassium cryolite and increase the refining capacity of the flux.

3. Salt melt is crushed after cooling.

4. Flux in the amount of 2-3 wt.% (Or at 0.3-0.5% KF) is applied to the surface.

the liquid metal heated to 720-740 ° C is melted on a metal and mixed with the metal.

5. Flux in liquid form is kept on the metal for 10-15 minutes in order to modify it and refine it and, if necessary, remove it.

6. The metal is cast into molds.

Aluminum-silicon alloys, modified by potassium from its fluoride, have stable and high mechanical properties, by tensile strength by 10%, and

relative elongation is 30% higher compared to alloys, processed by a known method. The properties of the alloy AL2, processed in various ways, are shown in the table.

Claims (1)

Claim A method for processing aluminum-silicon alloys, including the introduction of a salt mixture containing an alkali metal halide into the molten metal, characterized in that, in order to improve the quality of the alloy and increase the duration of the modifying effect, potassium fluoride is used.