JPH0649239B2 - Flux composition for brazing material - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a flux composition used for brazing an aluminum (Al) or Al alloy originally composed of an alloy, and particularly brazing at a low temperature of 500 ° C. or lower. And a flux composition capable of

(Background Art) In brazing an Al material, the oxide film formed on the surface of the material interferes with the wetting and flow of the braze, so that the oxide film is removed using an appropriate flux. Is required and has traditionally been
A chloride flux containing a l-KCl-LiCl-based alkali metal chloride as a main component is used. However, when this chloride-based flux is used, the flux remaining after brazing has a strong corrosiveness with respect to the Al material. Therefore, the flux residue must be removed after brazing. It was troublesome.

Therefore, Al using non-corrosive fluoride flux
Various brazing methods of materials have been studied, for example, Japanese Patent Publication Sho 58.
No. 27037 discloses a flux composition composed of a mixture of KAlF ₄ and K ₃ AlF ₆ , but such a flux has a melting point of about 560 ° C., which is considerably high. Inevitably, the brazing temperature becomes high, and the Al material (base metal) that can be brazed is thereby limited. That is,
There are inherent problems such as restrictions on the melting point of the material, particularly Al material (base material), restrictions on the dimensions, and in particular, inability to reduce the wall thickness. In addition, since the brazing temperature becomes high, there are inherent drawbacks such as expensive brazing equipment and large energy consumption during brazing.

(Problem to be Solved) Here, the present invention has been made in view of the above circumstances, and its problem is to provide a novel flux capable of brazing an Al material at a low temperature. To provide a composition.

(Solution Means) Then, in order to solve such a problem, the present invention provides 46 to 63.
A flux composition for brazing an Al material, which is composed of mol% BiF ₃ and 54 to 37 mol% LiF, is featured.

It should be noted that such a flux composition is advantageously a BiF ₃
And LiF are provided by being mixed in a powder form, and formed by melting and solidifying the powder mixture of BiF ₃ and LiF.

(Specific Configuration) As described above, the flux composition according to the present invention has a BiF composition.
It is composed of a predetermined ratio of ₃ and LiF, and only when such a ratio is adopted, the melting temperature becomes 500 ° C or lower and the brazing temperature becomes 500 ° C.
The following can be used, and thus the brazing base material (Al material)
The restriction due to the melting point of was eliminated, and brazing of all Al materials became possible. Therefore, if the proportion of BiF ₃ or LiF constituting the flux composition is out of the above range, the melting temperature becomes high, and the object of the present invention cannot be sufficiently achieved.

By the way, the flux composition comprising BiF ₃ and LiF according to the present invention is prepared according to various known compounding means. Generally, the following method is advantageously adopted. That is, one of them is BiF
₃ is a method of uniformly mixing ₃ and LiF in a powder state, and the other one is to prepare a powder mixture of BiF ₃ and LiF, melt it, homogenize it, and then cool and solidify it. It is a method, and the obtained melted and solidified product is generally pulverized into a powder for use.

The flux composition according to the present invention thus obtained is to be brazed in the same manner as the conventional method.
It is applied to an Al material consisting of 1 or its alloy to perform brazing. At that time, the flux composition according to the present invention has a low melting temperature of 5.00 ° C. or lower. From the brazing temperature to 500
The temperature can be set to a low temperature of ℃ or less, so that there is no limitation due to the melting point of the Al material to be brazed, and brazing of all Al materials is possible. Also,
By enabling such low-temperature brazing, it becomes possible to braze Al material consisting of high-strength Al alloy, and it is possible to effectively reduce the thickness and weight of the constituent materials. Since the brazing temperature is low, the Al material (base material) is less likely to be deteriorated in strength by the brazing heating.

(Examples) Hereinafter, examples of the present invention will be shown to clarify the present invention more specifically, but the present invention is subject to any restrictions due to the description of such examples. Not to mention that.

In addition to the following embodiments, the present invention further includes various changes and modifications based on the knowledge of those skilled in the art, in addition to the above specific description, without departing from the spirit of the present invention. It should be understood that improvements can be made.

First, an Al plate (thickness: 1 mm) made of JIS-A-3003 alloy was prepared, and the flux of BiF ₃ and LiF shown in Table 1 below was used at various ratios.
The l plate was assembled in an inverted T-shaped joint structure and brazed. Each flux was diluted with water: flux = 1: 1 (weight ratio), and the diluted product was applied to the brazing part of each Al plate. Also, the junction, Al-Zn those solder 1 mm ^□ in is arranged as a brazing material, and heating temperature at 400 ° C. to 500 ° C.,
Brazing was done.

The ratio of the flux components and the brazing result are shown in Table 1 below. In the case of using the flux composed of BiF ₃ and LiF in the ratios according to the present invention, it may be good even at a low temperature of 500 ° C. or lower. Although a brazed joint could be obtained, in the case of using a flux having a ratio outside the scope of the present invention shown as a comparative example, the flux does not melt at 500 ° C. or lower, and therefore effective brazing is performed. I couldn't.

(Effects of the Invention) As is clear from the above description, when the flux composition according to the present invention is used, the brazing temperature becomes 500 ° C. or lower, whereby the restriction due to the melting point of the Al material is eliminated, and all Al materials are Can be brazed, and high-strength Al alloys can also be brazed, which makes it possible to reduce the thickness and weight of the constituent materials, and because the brazing temperature is low, the strength of the Al material decreases due to brazing heating. It was possible to achieve such effects as a small amount.

Further, by using the flux composition according to the present invention, since the brazing temperature can be lowered, various equipment such as a brazing heating furnace can be inexpensive, and energy consumption during brazing can be reduced. As a result, the brazing cost can be reduced.

Claims (3)

[Claims] 1. BiF ₃ of 46 to 63 mol% and 54 to 37 mo
A material brazing flux composition comprising 1% LiF. 2. The flux composition for brazing material A according to claim 1, wherein the BiF ₃ and LiF are mixed in a powder form. 3. The A according to claim 1, which is formed by melting and solidifying a powder mixture of the BiF ₃ and LiF.
Flux composition for brazing material.