Vacuum Bonding Ceramics

Centorr vacuum furnaces offers a variety of production vacuum furnace designs and configurations.

Vacuum bonding ceramics.

Unparalleled performance in dynamic applications. At 40 of the density of steel its light weight minimizes stress on the equipment lined and extends life of other components such as fan bearings. Master bond adhesives provide engineers a range of viable design options and have been successfully employed for ceramic to ceramic and ceramic to dissimilar substrate bonding applications. Vacuum brazing and vacuum diffusion bonding services.

Due to this strong bond vb96 can be used in moderate impact areas which would otherwise be inappropriate for ceramic. Vacuum bonding is not limited to the attachment of alumina ceramic to steel. Wear con vb96 vacuum bonded ceramic wear tiles are very thin highalumina oxide content tiles attached to the impact surface with a vacuum bond the strongest attachment method available. Maximizing the benefits of vacuum bonding.

Si and ni cr si b as well as other less used metal fillers that will wet and adhere to metals and in special cases to ceramics. Valuable features of vacuum bonded materials are. Alumina ceramic is an excellent lining material. Multiple select formulations have been engineered for adhesion to ceramic components containing aluminum oxide zirconium dioxide boron carbide tungsten.

In weight sensitive applications aerotech bonded thin ceramic tiles can replace common abrasion resistant steels and weld overlays. Vacuum bonded ceramics are suitable for applications that require high rotational speeds impact and abrasive. In such braze joining the molten filler metals in the process wet the clean parent material surfaces to be joined react with the faying surfaces to form. At 40 of the density of steel its light weight minimizes stress on the equipment lined and extends life of other components such as fan bearings.

Maximizing the benefits of vacuum bonding. Increased impact resistance of wear resistant ceramics. Aerotech bonding allows our design engineers greater freedom to extend the use of advanced wear resistant materials including alumina and silicon carbide ceramics and tungsten carbides. Vacuum bonding is an advanced bonding technology that combines structural adhesives abrasive resistant ceramics and a controlled heating and vaccum process to attach the ceramic material to a substrate.

Standard vacuum furnaces are available for high temperature sintering hot pressing for powder compaction or diffusion bonding vacuum heat treating precision vacuum brazing and thermal heat treatment. It can be used to attach any dissimilar materials.