DE4111711C1 - Metallising ceramic for fuel cells - includes firing mixt. into ceramic surface of glass forming and non-oxidising metallic components - Google Patents

Abstract

In a process for metallising a ceramic, a mixt. is fired into the ceramic surface, consisting of a glass-forming component and a metallic component which does not oxidise at firing temp. The metallic component is a powder contg. 0-15% Al; 0-15% W, Mo and/or Nb; 0-5% Y, Ti and/or Ce; 0-3% Si, Mn and/or C; 15-25% Cr; remainder Ni and/or Fe and/or Co, and impurities. USE/ADVANTAGE - Fuel cells, resistant to H and O at temps. of 1000 deg. C and above

Description

The present invention relates to a method for Metallize a ceramic by baking it into the surface the same a mixture of a metallic, at Firing temperature non-oxidizing and a glass-forming Component.

A process has been described in DE-C 23 50 465 in the powdered molybdenum and manganese with glass-forming Oxides such as titanium oxide, trivalent iron oxide or silicon oxide be burned into the surface of the ceramic. Doing so the manganese is converted to manganese oxide and forms with the remaining metal oxides a glass melt, which the adhesion to Manufactures ceramics. In contrast, the molybdenum remains in its preserved metallic form. This is where metallic solders like Copper or copper-silver solders their liability, with their help the ceramics are connected with metallic components can. At that time, this became a special application Soldering tablets from an oxygen ion-conducting Ceramics, e.g. B. zirconium oxide, seen in metallic probe tubes, the part of a facility for determining the Oxygen concentration, e.g. B. in fuel gases.

A disadvantage of this metallization is that it is in air easily oxidized at temperatures above 400 ° C and becomes unusable. It therefore does not appear suitable for Use in high temperature fuel cells, which at Temperatures above 1000 ° C are operated and during their construction also the need arises, ceramic and metallic Connect components together by soldering. For this So far, platinum-based metallizations have been used  that have the desired properties for the large-scale application is too expensive.

Also a method known from DE-A 39 24 591, in which a mixture of molybdenum and Manganese powder of a certain grain size in selected orga African solvents dispersed, so-called "color" brought and then burned, leaves against it do not expect better properties. One in DE-A 31 11 808 described method for metallization using a "Paste" made from a high-melting metal powder (possibly a mixture of several such powders), one of the be knew glass-forming substances, a binding and a solution medium exists, also goes in its technical content not beyond the prior art discussed previously.

The object of the present invention is a cost-effective specify process for metallizing ceramics, that delivers metallizations, even at temperatures around 1000 ° C at least against those used in fuel cells Operating materials, namely hydrogen and oxygen, resistant are.

This object is achieved in that as a metallic Component a powder is used, the individual grains have the same composition among each other of

0-15% aluminum;
0-15% tungsten, molybdenum and / or niobium;
0-5% yttrium, titanium and / or cerium;
0-3% silicon, manganese and / or carbon;
15-25% chromium;
the remainder, in addition to production-related impurities, consists of nickel and / or iron and / or cobalt, ie the iron elements.

Austenitic, corrosion-resistant steels with this composition is known (e.g. material No. 1.4882). You can easily  pulverize and find application in this form u. a. when applying corrosion protection layers using the Plasma spraying process.

In a special embodiment of the invention are as glass-forming components aluminum oxide, titanium oxide, Silicon oxide and / or calcium oxide used. The glass-forming Properties of these substances are known.

In a further embodiment of the invention, the mixture of the metallic and glass-forming components Mix in an organic binder (e.g. ethylene glycol) transferred in paste form, what their practical handling improved.

A mixture of the stainless steel powder and Such glass formers are known to the Metallizing ceramic applied (if necessary under With the help of a below the firing temperature residue-free decomposing binder) and in a moist Burnt-in atmosphere.

Claims (3)

1. A method for metallizing a ceramic by baking into the surface thereof a mixture of a metallic, non-oxidizing at firing temperature and a glass-forming component, characterized in that a powder is used as the metallic component, the individual grains of which have the same composition among themselves

• a) 0-15% aluminum,
• b) 0-15% tungsten, molybdenum and / or niobium,
• c) 0-5% yttrium, titanium and / or cerium,
• d) 0-3% silicon, manganese and / or carbon,
• e) 15-25% chromium,
• f) remainder in addition to manufacturing-related impurities nickel and / or iron and / or cobalt.

2. The method according to claim 1, characterized characterized that as a glass-forming Components aluminum oxide, titanium oxide, silicon oxide and / or Calcium oxide can be used. 3. The method according to claim 1 or 2, characterized characterized in that the mixture of the metallic and glass-forming component by mixing in an organic binder is transferred into paste form.