SU967751A1 - Soldering flux - Google Patents

Description

(5) fluke flux

one

The invention relates to soldering, in particular, to the composition of the flux for soldering metal products and structures of low-temperature solder, and can be used for soldering automobile and tractor radiators, as well as in other areas of mechanical engineering.

Known flux t1, containing, weight .:

Ammonium chloride iZinc chloride

Water10-20

; Phosphoric acid

Also known flux t23f containing, wt%:

Phosphoric acid Not less than 10 Nitrate mediNe less than 1,

as well as a thickener, such as lead acetate, petrolatum or palm oil, and a wetting agent. Water 2 is taken as the solvent.

Known fluxes possess poni-; corrosiveness and reduce the total erosion of the product after soldering.

However, the use of known fluxes does not exclude the need for washing products after soldering from flux residues that contain corrosive residues.

The purpose of the invention is to create

10 fluxes with high activity, without leaving corrosive residues, eliminating the need for washing the product after soldering from flux residues.

15

The goal is achieved by the fact that the flux containing phosphoric acid, the wetting agent and water additionally contain thiourea and polyacrylamide at the next co20 ratio of components, wt.%:

Phosphoric acid 5.0 - 10.0

Wetting agent 0, 001- 0.02 39 Thiourea 0.1 - 0.5 Polyacrylamide 0.01 - 0.2 Water. The rest Thiourea is introduced into the flux composition to improve the flowability of the solders when brazing with phosphoric acid. At the same time, residues from the decomposition of thiourea after soldering passivate the surface of the product and the weld seam, act as a corrosion inhibitor. The introduction of polyacrylamide into the composition of the flux contributes to the dehydration of the burned surface, removing adsorbed water, eliminating the porosity of the weld seam. Polyacrylamide interacts with phosphoric acid to form organophosphorus compounds. Residues from decomposition of polyacrylamide and its derivatives with phosphoric acid passivate the surface of the product after soldering. Water is a solvent for flux reagents and a convenient carrier for supplying reagents to the soldering point. Replacing part or all of the water with water vapor at a temperature allows flux components to be supplied to the soldering point with simultaneous heating of the products to the soldering temperature, which is especially important when soldering cellular (cellular) structures. Thus, the content of polyacrylamide and thiourea in the flux composition makes it possible to obtain a corrosion-resistant phosphate film on the solder product and the solder joints after soldering, excluding the flushing of the product from flux residues. The phosphate film is with a good substrate for applying paint coatings to the product; The use of steam as a carrier and solvent of the flux allows efficiently, with great savings in the consumption of flux, to bring it to the soldering points when soldering bulk structures with simultaneous heat input when using

0.1 Brand OP-105 -0 0.001

7.5

0.3

Brand OP-10-0 0.01

9,689

0.01

0.1

92.09 of steam with a temperature of 350-450 ° C. The flux is prepared as follows. Into an aqueous solution of polyacrylamide (, 0), based on the total volume of the flux, a calculated amount of phosphoric acid (concentrated) is introduced in small portions with stirring. The resulting solution is stirred for 2 hours and then diluted with water to a calculated volume. adding the calculated amount of wetting agent and thiourea. When using steam as a solvent and a carrier flux, a more concentrated flux solution is prepared (2-3 times) with the latter being introduced into the vapor phase in ratios determined by the parameters of water vapor and its flow rate, with the expectation that the vapor flux condensate has the ratio of the components in accordance with this composition. The flux has good wettability and spreadability over an unprepared surface (without degreasing and pickling), as well as after a long period of storage of products before soldering. Determination of the effectiveness of this flux composition for soldering cooling plates of radiators to tubes (the operation of sintering radiator cores, soldering tube grids to radiator cores, soldering the tank and other technological operations of assembly and production of automotive radiators is carried out by conducting laboratory tests of spreadability of the POSS grade of solders -30-2 for brass grade L-63 at 375t10 ° C. Surface before soldering is subjected to degreasing and decanning. Examples of the composition of the proposed flux is represented by s in the Table.

0.3 Sulfanal NP-1

7.5

0.5 Brand OP-10-0

10 Testing of steam samples in the chamber Climate according to GOST 1b9b2-71 showed no signs of corrosion on brass and solder. Thus, the flux has a high activity at the soldering temperature of the soldered tungsoPOSS-30-2. Residual flux does not cause corrosion of the product after brazing and therefore does not require an operation to wash the product from the flux. The flux is convenient for its operation in soldering devices based on the principles of fluxing with a jetting, jet irrigation, jet soldering with vaporous flux, soldering in steam chambers and in other devices both during manual soldering and in the lines of mechanized semi-automatic soldering. The use of the proposed flux allows us to eliminate washing operations, reduce the consumption of corrosion inhibitors, improve the quality of soldering, and the reliability of paint coatings.

Table continuation

92.09

0.1 0.01

89.28

Claims (2)

0.2 0.02 Formula of the invention A flux for soldering, mainly low-temperature solders, containing phosphoric acid, a wetting agent and water, is also distinguished by the fact that, in order to avoid washing the products after soldering from flux residues, it also contains thiourea and polyacrylamide in the following ratio of components, wt.%: 5.0 -10.0 Phosphoric acid Wetting 0.001- 0.02 substance 0.1-0.5 Thiourea 0.01 - 0.2 Polyacrylamide Remaining Sources of information taken into account when examination 1.Avtorskoe certificate of the USSR №621513., .kl. At 23 K35 / 362, 05. Oi. 76 2. The patent of Great Britain W 1326687, cl. C 7 M, 08.15.73 (prototype).