DE1812221C3 - Process for joining a light metal or its alloys with a non-metallic material - Google Patents

Description

35

The invention relates to a method for joining a light metal or alloys thereof to a non-metallic material.

A number of methods are already known to connect metal parts and non-metallic bodies to one another by soldering.

In GB-PS 8 38 069 and US-PS 27 39 375 are Process for joining metals such as titanium, zirconium and alloys thereof with non-metallic ones Materials such as ceramic materials, porcelain, glass and the like have been described. As for the high At the melting point of the above-mentioned metals, it is impossible to wet the non-metallic body therewith. About the wetting of the non-metallic body to enable a metal or alloy with a relatively low melting point be used that, or that, practically does not diffuse into the metal to be soldered. Metals like Silver, copper, nickel, gold and aluminum have these properties.

According to the above-mentioned patents, the alloy that has given the best result consists of the copper-silver eutectic with a melting point of 780 ^° C. This solder is between the non-metallic body and the metal, for example titanium, zirconium, molybdenum or stainless Steel consists, arranged, after which the whole thing is brought to the melting point of the solder in a protective atmosphere or in a vacuum. A foil made of pure aluminum can also be used as solder.

As it is necessary with this procedure to

Heating the parts to be soldered to the melting point of the solder is not possible in this way To connect aluminum body and a non-metallic body directly to one another.

From US-PS 28 33 668 a method is known to connect aluminum and another metal, for example molybdenum, titanium, cobalt or nickel with one another.

After this process the light metal is on heated to a temperature below its melting point, after which the other metal is heated to a temperature above the boiling point of the light metal is dusted on the light metal, the light metal at the same time atomized on the surface so that both metals are in contact with one another in a pure state.

However, this process is quite involved and requires surface sputtering of both metals. Since the evaporation temperature of these metals is very different, the process is particularly critical.

The invention relates to a method in which a light metal or alloys thereof and a non-metallic material by arc welding together in a protective atmosphere get connected. With the different methods mentioned above, it is not possible to achieve simple Wise massive and at the same time fragile bodies, like isolated bushings, to be connected to one another. The method according to the invention offers the advantage that it can be carried out very easily and has favorable results in terms of airtightness and electrical properties Isolation results

According to the invention, a method of the opening mentioned type characterized in that the connection with the help of an intermediate metal with a higher melting point than that of the light metal or the Alloying of the same takes place. The invention can also have the following characteristics:

the connection of the intermediate metal with the light metal or its alloys is carried out by means of an alternating current arc with a DC component in a protective atmosphere;

the intermediate metal consists of titanium, less than 25% of which dissolves in the light metal made of aluminum; the welding is carried out according to the elastic edge method, in which the ratio between the Thickness of the edge of the intermediate metal and the thickness of the edge of the light metal or alloy thereof is greater than 1: 4. An embodiment of the invention is shown in the drawing and is described in more detail below. It shows

F i g. 1 a schematically represented ceramic rod bushing connected to a wall made of light metal,

F i g. 2 a vacuum-tight implementation. The method according to the invention can be used to attach a vacuum-tight passage of an insulating rod t through the wall of a housing 2 made of a light metal.

The housing 2 is made of aluminum or an aluminum-magnesium alloy.

The insulating rod 1 of the implementation according to FIG. 1 consists of aluminum oxide (AhCh. As the expansion coefficients of aluminum oxide and aluminum differ greatly from each other, it is not possible to directly mount solid bodies made of aluminum and aluminum oxide.

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to connect directly with each other. To make such a connection, the edits below are necessary:

1) An intermediate layer made of titanium is coated with silver or a eutectic one! Silver-copper alloy soldered to the aluminum.

F i g. 1 shows the body made of aluminum on which at 4 the intermediate metal part 3 made of titanium is soldered; 2 indicates the aluminum wall.

2) The connection of the aluminum housing with an intermediate part 3 made of titanium.

The thin elastic edges of these parts are at 5 by means of an alternating current arc with a DC component fused together by a welding electrode made of tungsten. The percentage Good connections can be increased if the welding is done when the parts are completely together are in an argon atmosphere, which avoids oxidation of the titanium.

F i g. Fig. 2 shows another type of vacuum-tight dutch guide for a conductor 6, which by means of an insulating body 1 is fixed in the light metal wall 2 using the method according to the invention.

The vacuum density of such connections is maintained up to a temperature of 300 ^° C.

Although only in the examples described above Titanium was mentioned as an intermediate metal, it is also possible to use molybdenum, zirconium, stainless steel and to use such intermediate metals within the scope of the invention. The non-metallic material Instead of AhCh, it can also consist of porcelain, a ceramic material, an oxide, glass, etc.

1 sheet of drawings

Claims (6)

Patent claims: 1. Procedure for joining a light metal or its alloys with a non-metal! see material by arc welding in a protective atmosphere, characterized in that the connection with the help of a Intermediate metal with a higher melting point than that of the light metal or its alloy takes place. 2. The method according to claim 1, characterized in that the welding is carried out by means of an alternating current arc with a direct current component. 3. The method according to any one of the preceding claims, characterized in that the light metal is aluminum. 4. The method according to any one of the preceding claims, characterized in that the intermediate metal is titanium. 5. The method according to any one of the preceding claims, characterized in that the amount of titanium that dissolves in aluminum is less than 25%. 6. The method according to any one of the preceding claims, wherein the welding after the elastic Edge method is carried out, characterized in that the ratio between the thickness of the edge of the intermediate metal and the thickness of the edge of the light metal or an alloy thereof is greater than 1: 4.