The active metal brazing of TZM-Mo and SiN ceramics

Abstract

The active metal brazing of ceramics holds the opportunity to design metal-ceramic brazing processes without conventional metallization and nickel-plating steps. Because of their intermediate thermal coefficient of expansion (TCE) properties, molybdenum and the TZM-Mo alloy (Mo-0.5Ti-0.08Zr) are attractive candidates for joining to silicon- nitride ceramics. The recently developed Fe-Ni-Co-based Thermo-Span™ alloy, with reduced TCE from room temperature up to ≈400°C, is also an attractive candidate material for 700°C joint service applications. This article discusses the wetting, solid-state aging, and mechanical behavior of unalloyed molybdenum, TZM-Moalloy, Thermo-Span alloy, and silicon-nitride ceramic brazes made with three different active-metal braze alloys.