DE1001781B - Process for resistance butt welding of alloyed steels - Google Patents

Description

Method of resistance butt welding of alloy steels The invention relates to a method for resistance pressure or flash butt welding of alloyed, especially high-alloy steels.

When welding such steels using the resistance pressure or flash butt welding process difficulties arise again and again, primarily due to the heating difficult-to-melt oxides formed are attributable to. The formation of such oxides cannot always be avoided even under suitable working conditions. Has has now shown that for the defects that have occurred in the welding point in particular the chromium oxides are responsible.

In order to achieve perfect welded connections, it has already been proposed been to carry out the process in protective gas, for example under argon.

The use of protective gas has proven itself in various cases proved to be useful, but is not due to the necessary additional equipment always applicable; for resistance welds that are controlled by hand or by means of semi-automatic devices, the welding process is on the connection point can then only be checked with difficulty.

As experiments have now surprisingly shown, one achieves with the Resistance welding or flash welding of alloyed, especially higher-alloyed steels, that have one or more alloy elements that are difficult to weld during the welding process Forming melting oxides, perfect welded joints, if during the welding process a flux is provided between the abutting surfaces of the parts to be connected Iron or steel insert is used.

The invention consists in that after the preheating process between the abutment surfaces to be connected are provided with fluxes, preferably borax Iron or steel insert inserted and that then the welding process in is terminated in the usual way.

The preheating temperature, the current strength and the upset pressure to be used are selected in a known manner according to the steels used.

Welded connections made in this way also have under proven in the toughest conditions.

The use of sheet metal or wire mesh impregnated with flux made of iron or steel is already known per se, but such aids have become so far only when soldering hard metal on resistance welding machines applied to various tools; these deposits have the Purpose to compensate for the different thermal stresses that occur during heating and at the same time distribute the solder accordingly.

The method according to the invention has proven particularly useful during manufacture of thorns, as they are used in the deformation of metals, proven. So is based on an alloyed heat treatable steel of high strength, for example a Chrome-nickel-molybdenum steel with a yield point of around 150 kg / mm2, a hot-work steel customary composition welded on.

The method according to the invention will now be based on an exemplary embodiment are explained in more detail: For the production of a press mandrel for hot pressing of Metals should be a quenched and tempered steel of high strength with 0.42% C, 0.250 / a Si, 0.5 % Mn, 1.3% Cr, 4 '%. Ni, 0.25% Mo with a hot-work tool steel with 0.3% C, 0.3% Si, 0.3% Mn, 2.7% Cr, 8.50 / a W, 0.35% V are connected, being for the rod-shaped present tool parts the flash butt welding comes into consideration.

After switching on the welding current, the parts are initially on Brought temperatures between 800 and 900 ° C, whereupon the joint surfaces separated, the iron grille soaked with borax is pushed in and the abutting surfaces are pressed together again will. After the usual welding process, those produced in this way result Welded joints flawless values without causing any harmful influence any hard-melting oxides formed would have come. It has proved to be particularly useful in the method according to the invention, the - metallic insert, which is soaked with flux, either in the form of a perforated or a metal sheet provided with depressions or as a grid.

Claims (2)

PATENT CLAIMS: 1. A method for resistance pressure or flash butt welding of alloyed, in particular higher alloyed steels, characterized in that, after the preheating process, an iron or steel insert provided with flux, preferably borax, is inserted between the abutment surfaces to be connected and that then the welding process is ended in the usual way. .. 2. Procedure according to claim 1, characterized in that the metallic insert consists of a perforated Sheet metal or one with depressions or a wire mesh.