JPS63207494A - Flux for zn brazing filler metal - Google Patents

Abstract

PURPOSE:To improve the solubility and wettability of a flux for a Zn brazing filler metal by incorporating >=2 kinds of NaF, KF and LiF and ZnCl2 at specific ratios into the flux and constituting the balance of LiCl and KCl at specified compounding ratios. CONSTITUTION:The flux for Zn brazing filler metal is constituted by incorporating <=2 kinds of NaF, KF and LiF at 10-30wt.% in total therein, incorporating 10-20% ZnCl2, consisting the balance of LiCl, KCl and unavoidable impurities and specifying LiCl(%)/KCl(%) to 1-3. Since the flux made of such compsn. has the excellent solubility and wettability, a good joining property is obtd. at the time of brazing Al, Ti, etc., by using the Zn brazing filler metal.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a Zn-based brazing material flux that has excellent solubility and wettability.

[Prior art] For example, when brazing metals such as aluminum and titanium, which are prone to oxidation or deterioration of physical properties due to heat, it is desired to braze at relatively low temperatures. Development of flux is also progressing. The primary purpose of using flux during brazing is to remove the oxide layer formed on the surface of the base metal by turning it into slag and reducing it, thereby ensuring wettability between the base metal and the molten brazing metal. Considering this role, it is desirable that the flux has a low melting point (excellent solubility), and when melting, it turns the base metal oxide into a sludge and fluidizes it. It must have good affinity with the brazing material (good wettability) by exposing the newly formed surface of the base metal by reducing it back to metal.

[Problems to be solved by the invention] However, when brazing Zn-based brazing filler metals, even if conventionally used fluxes are used, it is not possible to obtain solubility and sufficient wettability that are compatible with the brazing filler metals. It did not give good brazing properties.

Therefore, in the present invention, Zn, which has excellent solubility and wettability, is used.
Various studies were conducted with the aim of providing a flux for brazing filler metals.

[Means for solving the problems] The present invention that can solve the above problems is based on NaF,
Two or more types of KF and LiF, total of 10 to 30
% (meaning of weight %, same below) ZnCl2: 10-2
0%, and the remainder consists of LiCl, KCl, and unavoidable impurities.

[Function] As a result of various studies on flux components for Zn-based brazing materials, the present inventors found that if the following flux components were selected, a flux with excellent solubility and wettability could be obtained.

Two or more of NaF, KF, and LiF - 10 to 30% in total Fluoride has the effect of reducing the oxide layer on the surface of the base metal and exposing the new surface by exerting a reducing action on the oxide. However, if the total amount is less than 10%, the effect will not be exhibited, and if it is contained in more than 30%, the melting point of the entire flux will increase, making it difficult to dissolve and unable to fulfill its role as a flux. The reason why two or more of NaF, KF, and LiF are included is that each alone has a high melting point, making it difficult to dissolve the flux. Furthermore, since NaF has a particularly high melting point, it is desirable that the content be up to about 10%.

ZnC12: 10-20% ZnCl2 has the role of reducing the viscosity when the flux is melted, improving fluidity and improving the wettability of the flux, and exhibits its effect at a content of 10%. . In addition, since ZnCl2 does not directly participate in the reduction reaction like the fluoride mentioned above, if it is contained in an amount exceeding 20%, the flux will be diluted, and the reducing action by the fluoride will not be carried out sufficiently, resulting in wetting. Sexuality becomes worse.

The remainder of the above components consists of LiCl, KCl and unavoidable impurities. LiCl and KCl are necessary components to maintain wettability even after the above components have reacted, and if only one of them is used, the melting point is high and brazability is impaired. Therefore, it is necessary to avoid a large temperature difference between the melting point of the Zn-based brazing material used and the other components constituting the flux.

Furthermore, when using the Zn-based brazing flux of the present invention, the base metal to be brazed is not limited, but metals such as titanium and aluminum are easily oxidized and deteriorated by heat and cannot be brazed at relatively low temperatures. Suitable for desired metals.

[Example] A flux for a brazing material having the composition shown in Table 1 was melted in a platinum crucible, and titanium was brazed to titanium using a Zn-based brazing material to examine the solubility and wettability of the flux. The results are shown in Table 1.

It can be seen that the flux regulated according to the present invention has excellent solubility and wettability.

[Effects of the Invention] The Zn-based brazing flux of the present invention is structured as described above and has excellent solubility and wettability.
Provides good bonding properties when brazing brazing filler metals.

Claims (1)

[Claims] Two or more of NaF, KF and LiF: 1 in total
0 to 30% (meaning of weight %, same below) ZnCl_2:
10 to 20%, and the balance is LiCl, KCl, and unavoidable impurities, with a ratio of LiCl (%)/KCl (%): 1 to 3.