Reaction and bonding of Hf and Zr containing alloys to alumina and silica

We have investigated the wetting and reaction behavior of two less common transition element additives to braze alloys to learn more about their reaction and bonding mechanisms. Alloys of Ag with different amounts of Hf or Zr were reacted in a controlled atmosphere furnace with sapphire, alumina of...

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Bibliographic Details
Published in:Journal of the European Ceramic Society 2003, Vol.23 (15), p.2805-2811
Main Authors: Loehman, Ronald E., Gauntt, Bryan D., Michael Hosking, F., Kotula, Paul G., Rhodes, Summer, Stephens, John J.
Format: Article
Language:English
Subjects:
Al 2O 3
Applied sciences
Bonding
Building materials. Ceramics. Glasses
Ceramic industries
Chemical industry and chemicals
Condensed matter: structure, mechanical and thermal properties
Exact sciences and technology
General studies
Metals. Metallurgy
MgO
Physics
Solid-fluid interfaces
Surfaces and interfaces
thin films and whiskers (structure and nonelectronic properties)
Technical ceramics
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Summary:We have investigated the wetting and reaction behavior of two less common transition element additives to braze alloys to learn more about their reaction and bonding mechanisms. Alloys of Ag with different amounts of Hf or Zr were reacted in a controlled atmosphere furnace with sapphire, alumina of 99.6 and 96% purity, and fused silica. We determined contact angles during heating and examined cross sections after cooling using electron analytical techniques. Different interfacial microstructures were obtained when the active metal was varied in an otherwise constant system. The Hf-containing alloys reacted with polycrystalline Al 2O 3 and had a dispersion of Hf-containing particles near the interface. If there were a reaction layer with the Al 2O 3 it was below the resolution of the analysis. By contrast, Zr reaction products were more evident and appeared to have diffused away from the interface into the alloy. The microstructural observations are interpreted using available thermodynamic data and known phase relations.
ISSN:0955-2219
1873-619X
DOI:10.1016/S0955-2219(03)00292-9