SU428895A1 - FLUX FOR WELDING TITANIUM AND ITS ALLOYS - Google Patents

Description

one

The invention relates to the welding of thin-sheet titanium in a protective gas environment by an electric arc that is burning in both continuous and pulsed modes.

A known flux for smelting titanium and its alloys, containing, in addition to other components, sodium fluoride in an amount of .1.5%.

In order to improve the quality of the welded joint by reducing the amount of gas inclusions, increasing arc stability, aluminum halides in the amount of 75-95% and manganese chloride in the amount of 3-il5% are added to the flux composition, and sodium fluoride is taken in the amount of 2-10 %

Aluminum halide and aluminum fluoride were added as aluminum halogen acids, taken together in the following ratio A1C1.,

TJ - NII:

Depending on the temperature of the onset of the reaction of adsorbed moisture and metal halides, the formation of fluoride or hydrogen chloride can be completed even before the edges being welded melt by a moving heat source, i.e. the edges being welded are pre-metallurgically treated with flux, and in this case the formation of gas bubbles in the bath going on.

When argon-arc welding of thin-sheet titanium with deposition of fluoride and aluminum chloride on the ends of the edges, the seams are silver without gray deposit with uniform penetration and pitch of the weld points (for the case of arc operation in a pulsed mode), the appearance of pits in the metal of the seams is completely prevented.

It should also be noted that aluminum is a alloying element in titanium alloys and therefore its possible transition from AlCl3 and AlFs compounds to the weld metal during welding will be a positive factor.

When welding thicker metal or when welding in soft conditions, when the weld pool exists for a long time and under conditions of slow cooling, significant grain growth is possible; the presence of sodium fluoride in the flux Modifies the weld metal and sodium crushes the titanium grain. To regulate the shape of the weld, manganese chloride is introduced into the flux, which greatly increases the melting capacity of the welding arc. In addition, the introduction of manganese chloride reduces the hygroscopicity of aluminum chloride by binding it to a non-hygroscopic complex. Proposed

; 7ГЛ. ,, 428895.

3: .4

The flux is made in the form of compacted, increased arc burning stability, into melted powder of a powdered powder, the flux composition is introduced into aluminum halides before welding is mixed with alcohol in an amount of 75-95% and manganese chloride or wash to the correct consistency. sodium fluoride is taken

Subject and claim (f e ffp 2. Flux for titanium welding according to claim 1, first). Flux for welding titanium and its alloys are not introduced aluminum chloride and protective gases containing fluorine,., Solid aluminum, taken between a sodium, characterized in that, with the aim of a quotient ratio: - - --.- .- 3: 4. improving the quality of the welded joint.

gas reduction account

5 in quantity.

that as al halides