CS209593B1 - Vacuum-tight glass recrystallized solder on the basis of the calcium aluminate - Google Patents

Abstract

The invention relates to glass recrystallized calcium aluminate solders for bonding ceramics or metal with ceramics or metal. The invention solves the solder composition. The essence of vacuum glass recrystallized solder is that it contains 1 to 10% boron oxide, lithium oxide or oxide sodium and 0.1 to 20% titanium dioxide, phosphorus pentoxide, vanadium oxide, zirconium oxide, chromite oxide, molybdenum oxide, netoxide Tungsten and individually or in combination. The invention can be used in electrical engineering especially in lighting technology vacuum technology and electroceramics.

Description

BACKGROUND OF THE INVENTION The present invention relates to a vacuum-resistant glass recrystallized calcium aluminate solder for brazing ceramic or metal with a ceramic or metal.

A number of glass recrystallized solders based on calcium aluminates with the addition of other components such as e.g. silicon dioxide, magnesium oxide, beryllium oxide, strontium oxide, barium oxide, calcium fluoride, yttrium oxide, or cadmium oxide. Different ratios of the major calcium oxide and alumina components (AlgOjj) and the additive components allow the preparation of glass recrystallized solders with different melting points and graded coefficient of thermal expansion. The proportions of the components and the cooling process of the molten solder influence the representation of the individual crystalline phases in the recrystallized solder and thus also the sodium corrosion resistance, the stability of the solder and its coefficient of thermal elongation.

A disadvantage of the prior art is that the glass recrystallized solders have relatively high soldering temperatures of 1450 to 1700 ° C, which is very energy intensive and causes great wear to the furnace aggregates. In many cases a more complex cooling mode is required. Glass recrystallized solders with a lower soldering temperature readily persist in the glass state, however, due to the sodium corrosion resistance and mechanical properties, the occurrence of the glass phase in the joint should be avoided. and

Disadvantages of the prior art are eliminated by the invention, a vacuum-sealable recrystallized calcium aluminate solder comprising 1 to 10% boron oxide, lithium oxide or sodium oxide and 0.1 to 20% titanium dioxide, phosphorus pentoxide, vanadium pentoxide , zirconium oxide, chromium oxide, tungsten oxide or molybdenum oxide individually or in combination.

The advantage of the invention is to reduce the soldering temperature of the glass recrystallized solders while maintaining a high corrosion resistance to sodium accompanied by simplification or omission of the complicated cooling mode of the molten solder. The lowering of the brazing temperature is achieved by the appropriate addition of boron oxide, lithium oxide or sodium oxide and the adverse effect of increased glass formation and reduced nucleation and / or crystallization rate is compensated by the addition of a suitable homogeneous nucleating agent consisting of one or more oxides selected from titanium dioxide, vanadium pentoxide. , phosphorus pentoxide, zirconia, chromium oxide, tungsten oxide and molybdenum oxide.

The invention will be described in more detail by means of two examples, in which a possible composition of the glass recrystallized solder according to the invention and a possible cooling procedure are mentioned.

Example 1

Use of a solder to form a connection between a niobium armature of a high pressure sodium lamp and a ceramic tube of translucent corundum.

A mixture of the following weight composition is prepared:

% alumina% calcium oxide% strontium oxide% boron oxide 2% titanium dioxide

Solder was produced from these components and solder rings were made. The ring was inserted between the brazed materials ie the niobium cap and the translucent corundum tube. The entire assembly was folded into a vacuum oven in the solder. The firing took place in a high vacuum of the order of magnitude better than 1.33.10 Pa. The temperature was raised up to 1320 ° C and after a holding time of 2 minutes, the firing cycle was cooled by uniform cooling of 60 ° C / min. After reaching 840 ° C the furnace was switched off and the joint was further freely cooled. After an additional 30 minutes at a temperature below 100 ° C, it was removed from the oven.

Example 2

Use of a solder according to the invention for the connection of a translucent corundum tube with a ceramic stopper of the same material.

A mixture of the following weight composition is prepared:

% alumina% calcium oxide% barium oxide% boron oxide% titanium dioxide

Solder rings of corresponding dimensions were prepared in the same manner as in Example 1. Firing was carried out in a normal atmosphere in a ceramic solder. The temperature in the furnace was increased at a rate of 50 ° C / min until the melting point of the solder was 1360 ° C. After holding for 3 minutes, the oven temperature was reduced at a rate of 80-90 ° C / min. After reaching a temperature of 800 ° C the spec was switched off. After the furnace had cooled below 100 ° C, in this example after 40 minutes, the brazed tube was removed from the furnace.

Claims (1)

Vacuum glass recrystallized calcium aluminate solder for brazing ceramic or metal with ceramic or metal, characterized in that it contains 1 to 10% boron oxide, lithium oxide or sodium oxide and 0,1 to 20% titanium dioxide, phosphorus pentoxide, vanadium pentoxide, zirconium oxide, chromium oxide, molybdenum oxide, or tungsten oxide individually or in combination »