JPS6186097A - Production of ti-containing composite brazing filler metal - Google Patents

Abstract

PURPOSE:To provide a titled brazing filler metal which is easily plastically workable and alloys in a short time in the stage of brazing by superposing the plate of a noble metal and the plate of Ti, winding the superposed plates to a coil shape to form a circular cylindrical coil and subjecting repeatedly such coil to compression molding and sintering then forming the molding into a plate, wire or other shape. CONSTITUTION:The Ti plate and noble metal alloy plate are stacked and thereafter the stacked plates are begun to be wound like a coil from one end to form a circular cylindrical coil. Such coil is subjected to several times of compression molding and sintering as it is or after the metallic coil is enclosed with Ag or the same kind of the noble metal alloy tape or foil wound like a coil and is formed into a billet shape. Such molding is thereafter subjected to hot extruding, swaging or roll drawing, by which the wire, tape or plate- shaped blank material is obtd. The blank material is made by annealing and plastic working to a wire, plate or tape shape and is finished to an optional shape. Since the Ti exists in the state of the single metal in the noble metal alloy, the generation of the intermetallic compd. between the element in the noble metal alloy and Ti is obviated.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a method for manufacturing a Ti-containing composite brazing filler metal used in Ti+Tr gold alloy ceramics and the like.

(Prior art and its problems) Conventionally, when a Ti-containing filler metal is made into an alloy, a total bending compound is generated between Ti and the elements in the noble metal alloy, making plastic working difficult. is manufactured by obtaining alloy powder by atomizing molten metal, by using a precious metal alloy as an intermediate layer and cladding the surface with Ti, or vice versa, by using a Ti intermediate layer and cladding the surface with a precious metal alloy. Or tape was used.

However, the Ti-containing alloy powder brazing filler metal obtained in powder form is
Due to its shape, its uses are limited and it has not been able to satisfy the needs of many users.

On the other hand, although composite brazing filler metals clad with Ti and precious metal alloys are effective in plastic working,
There are problems in that it takes time for Ti and the noble metal alloy to melt and form an alloy during brazing, and that segregation occurs.

(Objective of the Invention) The present invention has been made to solve these problems, and it is easy to plastically work, completes alloying in a short time during brazing, and has a uniform structure after becoming an alloy. Therefore, it is an object of the present invention to provide a method for manufacturing a Ti-containing composite brazing filler metal without segregation to the extent that it adversely affects bonding strength.

(Structure of the Invention) The method for producing a Ti-containing composite brazing filler metal of the present invention involves stacking two or more Ti plates and noble metal alloy plates, and then starting to wind them into a coil from one end to form a columnar shape. Wrapped with Ag or the same type of metal alloy tape or foil wound into a coil shape to form a billet, after which compression molding and sintering were repeated several times, hot extrusion or swaging, rolling and drawing processing to produce a wire, A tape or plate-like material is obtained.

This is then annealed and plastically worked to form a line, slope or tape into any desired shape. By going through this process,
Since Ti exists in the noble metal alloy in the form of elemental gold mud, no intermetallic compound is formed between the elements in the noble metal alloy and Ti. Even if it is stopped, it is only in the surface layer, so it can be easily wire-drawn or rolled and finished into any size without losing its plastic workability.

When Ti, Ti alloys, or ceramics are brazed using this Ti-containing composite brazing material, since Ti exists in layers in the noble metal alloy, iW & alloying is completed in a short time, and the structure after brazing is When observed, segregation is extremely low, and the bonding strength is significantly improved compared to composite brazing filler metals made by conventional methods.

Next, specific examples and conventional examples will be described in order to clarify the effects of the method for manufacturing a Ti-containing composite brazing filler metal according to the present invention.

(Example) One Ti plate with a thickness of 0.1 mm and a width of 60 mm and a fin of 0.45 mm.

Two Ag-Cu2B% slopes with a width of 5Qmm were fixed at one end by spot welding, and wound into a coil shape with the spot welded part at the core to form a coil with a diameter of 50I.

After making it into a cylindrical shape with a height of 60 mm, the thickness is 0°08 fins and 1 width is 60 mm.
The outermost circumference was wrapped several times with the A g -Cu 28% board from Yoi 1. After repeating compression molding and sintering three times, this product was hot extruded in the axial direction to form a 12φ fin. The obtained rod was pulled out and repeatedly annealed to a diameter of 3 mm, and then rolled to obtain a tape having a thickness of 0.3 nm and a width of 4.3 mm.

(Conventional example) T
Joined by welding in a sandwich shape with i as the intermediate layer,
This is rolled and annealed repeatedly to reduce the thickness to 0.3
After making a dragon, use a slitter to make it 4.5mm wide.

A tape with a thickness of Q and 3 mm was used.

Ti rod 2inX 1,5+oi using both tapes
were joined as a lap joint, and the segregation state at that time was observed under a microscope and the joint strength was tested, and the results shown in the table below were obtained.

As is clear from the above, T
The i-containing composite brazing filler metal has greater bonding strength and less segregation than the composite brazing filler metal produced by the conventional method. It has plastic workability equivalent to or better than that of composite brazing filler metals produced by conventional methods.

(Effects of the Invention) As explained above, since the method of the present invention does not create intermetallic compounds, plastic working is easy and brazing filler metal of any shape can be easily produced, and Ti is dispersed at regular intervals in the precious metal alloy. Since a composite brazing filler metal can be obtained, alloying during brazing can be done in a short time, and a brazing filler metal with extremely low segregation after brazing can be obtained.

Claims (1)

[Claims] A Ti-containing composite characterized by stacking a noble metal alloy plate and a Ti plate, winding them into a coil shape to form a columnar shape, repeating compression molding and sintering, and then plastic working it into a plate, tape, or wire shape. Method of manufacturing brazing filler metal.