DE1029945B - Soldering material made of a copper-titanium alloy for the vacuum-tight connection of ceramic parts with parts made of ceramic or metal - Google Patents

Description

GERMAN

The invention relates to a copper-titanium alloy for brazing material vacuum-tight joining of ceramic parts with parts made of ceramic or metal, in particular parts an electric discharge tube.

It is known that 70 to 99% copper and 30 to 1% titanium or zirconium-containing alloys adhere excellently of ceramic material and are therefore suitable for the metallization of ceramic surfaces, with the advantage is obtained that other metal parts can be soldered to this surface or the Surface can be coated electrolytically with another metal. But it turns out that this The material itself is poorly suited to serve as a solder for ceramic surfaces that have not been previously metallized.

A brazing material made of a copper-titanium alloy that meets these requirements for vacuum-tight connection of previously non-metallized ceramic parts with parts made of ceramic or According to the invention, metal from vessels, in particular from electrical discharge tubes, consists of an alloy with 56 to 60 percent by weight copper and 44 to 40 percent by weight titanium. Appropriate The alloy consists of equal atomic percentages of copper and titanium, which is 58 percent by weight of copper and corresponds to 42 weight percent titanium. It has been shown that such a copper-titanium alloy known alloys is far superior in terms of soldering. The solder adheres better, flows better and also has a lower vapor pressure than the copper-titanium alloys with a higher copper content, whereby it is not noticeable when melting in a vacuum during the formation of the solder joint evaporates. The aspirations are based on the foregoing Ratio of equal atomic percentages of titanium and copper, but deviations within the limits mentioned are to be regarded as permissible.

It has been known that silver-titanium alloys with 9 to 15% titanium do well on not previously metallized adhere to ceramic surfaces. Such alloys still have one at the melting temperature higher vapor pressure than the above-mentioned copper-titanium alloys, so that the evaporation in the Vacuum is even stronger.

The invention is explained in more detail with reference to a drawing, which shows in section a vacuum vessel in the form represents an electrical discharge tube, its ceramic and metal bulb parts with the help of are connected to one another by soldered connections according to the invention.

In the drawing, the cathode is denoted by 1, a grid by 2, and the anode by 3. The wall consists of ceramic parts 4, 5, 6 and 7, which are made of a copper-titanium alloy by soldered connections 12 with a solder according to the invention

existing solder material
for vacuum-tight connection

ceramic parts
with parts made of ceramic or metal

Applicant:

NV Philips' Gloeilampenfabrieken,
Eindhoven (Netherlands)

Representative: Dr. rer. nat. P. Roßbach, patent attorney,
Hamburg 1, Mönckebergstr. 7th

Claimed priority:
Netherlands 2 December 1955

Popko Reinder Dijksterhuis, Eindhoven (Netherlands), has been named as the inventor

are connected to each other and to metal leadthroughs of the grid 2 and the cathode 1. The anode 3 can also be fastened in the ceramic disk 4 by means of such a soldered connection. The parts are stacked on top of one another under a vacuum bell jar with the interposition of powdered soldering material pressed in a ring shape, which consists of a powdered copper-titanium alloy with 58 percent by weight of copper and 42 percent by weight of titanium. The heating element 8 of the cathode can be connected beforehand to the cathode disk by means of a supply line 9 and to a metal disk 11 by means of the other supply line 10. Suitable ceramic materials are, for. B. Alundum (Al ₂ Oa) and Fosterite (2MgO-SiO _? ). Iron-nickel-cobalt alloys or chrome iron can be used as metals. The expansion coefficients of the ceramic material should, however, essentially correspond to those of the metal to be connected to it.

After the bell has been evacuated, the whole thing is heated by means of high-frequency currents until the Solder material melts and connects the parts together in a vacuum-tight manner.

It was known that a mixture consisting of more than 50% of a refractory metal, such as B. tungsten, molybdenum, tantalum, titanium

805 510/401

or vanadium, and a solder made of, for example, copper, nickel, zinc, tin, aluminum, cobalt or iron existing mixture is suitable for soldering together tungsten and copper, e.g. B. in manufacture the anode of an X-ray tube. This alloy has been used to connect ceramic surfaces but not proven.

Claims (2)

Patent claims: 1. Brazing material made of a copper-titanium alloy for a vacuum-tight connection previously non-metallized ceramic parts with parts made of ceramic or metal of vessels, especially particular of electrical discharge tubes, characterized in that the alloy of 56 up to 60 percent by weight copper and 44 to 40 percent by weight titanium. 2. Solder material according to claim 1, characterized in that that the alloy consists of 58 percent by weight copper and 42 percent by weight titanium. Considered publications:
Electronic Engineering, Vol. 20, 1948, p. 100;
RCA Review, Vol. 15, 1954, p. 47;
Vacuum technology, 4, 1955, p. 111. 1 sheet of drawings