RU1804989C - Solder composition for welding titanium-base alloys - Google Patents

Abstract

Usage: in various fields of engineering for soldering assemblies of titanium alloys. SUMMARY OF THE INVENTION: witness material for non-destructive testing of the quality of contact and seam welding of aluminum alloys; containing wt.%: zinc 2.5-3.2; chrome 0.5-0.8; cerium 6.5-7.5; lanthanum - 3.3-4.0; niodim - 0.4-0.5; praseodymium - 0.5-40.6; aluminum - the rest is used as a solder for brazing titanium alloys. 1 tab. ate with

Description

The invention relates to brazing, in particular to the composition of aluminum-based solder, for soldering units made of titanium alloys, and can be used in various branches of engineering

The aim of the invention is to provide higher mechanical properties of the solder joints at large (up to 0.2 mm) gaps and to reduce the laboriousness in the manufacture of soldered parts and accessories.

This is achieved by using witness material in non-destructive testing of the quality of contact and seam welding of aluminum alloys, containing, wt ..%: zinc 2.5-3.2; chrome 0.5-0.8; cerium 6; 5-7.5; lanthanum 3.3-4.0; neodymium 0.4-0.5; Prosedium 0.5-0.6; aluminum is the rest, as a solder for titanium alloys.

Chromium and rare earth metals, which are part of the composition, to a small extent

soluble in aluminum. Therefore, when the alloy is melted during brazing, they serve as a kind of skeleton that prevents the molten solder from flowing out from the connecting gaps up to 0.2 mm and alloying the weld seam, which increases the strength of the joints to 92-113 MPa,

The aluminum alloy, proposed as a solder, is produced by the domestic industry in the form of strips with dimensions that allow them to be used as a solder for various structures of titanium alloys, including multilayer ones.

Soldering of solders from titanium alloys is carried out in vacuum furnaces with a degree of vacuum no worse than Pa.

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The table shows the results of mechanical tests of samples soldered by the proposed solder in comparison with the known one.

The use of the proposed aluminum alloy as a solder for soldering units made of titanium alloys with large connecting gaps provides stable strength properties of the brazed joints with a gap value of 0.05-0.2 mm. With a larger gap, incomplete filling is formed. As a result, the strength of the solder joint decreases.

This allows us to expand the tolerance on the precision of manufacturing of soldered parts from 0.05 mm to 0.1 mm and to improve the quality and reliability of soldered titanium structures. As a result, the labor intensity of manufacturing soldered parts and assembly-and-burn equipment for soldering titanium structures is reduced by 15-20%. In addition, the yield is increased by 10-15% after soldering titanium assemblies, especially large structures.

Claims (1)

The formula of the invention The use of witness material in non-destructive quality control of contact and suture aluminum alloys, containing, wt.%: Zinc 2.5-3.2; chrome 0.5-0.8; cerium - 6.5-7.5; lanthanum 3.3-4.0, nim 5; 0.4-0.5; praseodymium 0.5-0.6, aluminum - the rest, as a solder for brazing titanium alloys. 0