DE524143C - Flux for welding or brazing magnesium and magnesium-rich alloys - Google Patents

Description

. Erich Lüder in Berlin

Dr. Leopold Rostosky and

For creating welds or brazed joints on magnesium or magnesium-rich Alloys have been proposed several times, in addition to an additional rod made of the same material or one rich in magnesium Hard solder to use a flux that is suitable for the purpose of aluminum welding and brazing is similar to known fluxes. Such fluxes generally consist of mixtures of Halides of the alkali, alkaline earth and earth metals. In turn, find these salts the chlorides, especially the hygroscopic lithium chloride, preferred application. When using such flux, the problem often arises with aluminum on that flux residues, which as a result of incorrect operation on or in the aluminum welding or soldering point

stay ao, give rise to pitting after some time; because they pull out of the Air in water and form a salt solution that attacks the metal. So you have to In the case of aluminum, make sure that the flux containing hygroscopic chlorides be thoroughly removed after work. Corrugations occur to a far greater extent on when using such flux for welding or brazing magnesium and magnesium alloys used. This drawback is based on the fact that, firstly, magnesium is more easily attacked chemically than aluminum, and that, secondly, in the case of reactions between the chloride-containing flux and the magnesium, this is always extraordinary hygroscopic magnesium chloride occurs, which occurs in the fine pores of sweat or Soldering point and especially in the case of thick castings in the vicinity thereof and can practically not be removed, so that such soldering or welding points after a few Time to start covering yourself with a white fog, i.e. to corrode.

The object of the invention is to remedy this drawback or to minimize it limit by using fluxes, which on the one hand are not hygroscopic themselves are, on the other hand, do not contain chlorine compounds, so that when they are used no magnesium chloride can form on the welding or soldering point. The task to be solved was made more difficult because the way known from aluminum to use non-hygroscopic beryllium salts, did not lead to any favorable result, and as it was based on previous knowledge only with the help of chlorine compounds has succeeded in producing fluxes that work well.

place. The avoidance of the chlorine compounds required numerous systematic series of tests, which affect the mode of action of single and multiple salts in complicated Mixtures ranged.

Here, mixtures were finally found, which are particularly suitable as fluxes for magnesium and magnesium alloys. They essentially consist of '

ίο a multicomponent mixture. of non-hygroscopic bromides or iodides or both types of halogen salts of the alkali and alkaline earth metals and optionally also of the earth metals with the addition of one or more fluorine compounds. Although their temperature of action and oxide-dissolving effect are equivalent to those of chloride-containing fluxes, the welds and solderings carried out with them show no signs of corrosion, even after months of storage in the air. Among other things, the following mixture has proven to be useful:
50 ° / ₀ potassium bromide,
2o ° / ₀ sodium bromide,
2o ° / ₀ Calciurnbromid,

5 ° / ₀ strontium bromide,
5 ° / ₀ fluorides.

Claims (1)

Claim:
Flux for welding or brazing magnesium and magnesium-rich alloys, characterized in that, while avoiding chlorides and other hygroscopic salts, it consists of a multicomponent mixture which, in addition to the bromides and / or iodides of the alkalis, also contains the bromine and / or iodine salts of the alkaline earths and optionally also contains the earth and one or more fluorine salts.