Silicide composite with niobium-based metallic phase and silicon-modified laves-type phase

Assignee

• General Electric Company · US

Inventors

• Melvin Robert Jackson · Schenectady, US
• Bernard Patrick Bewlay · Niskayuna, US

Key dates

Classification

• Technology area (CPC C)Chemistry; Metallurgy
• CPC primaryC22C27/02
• WIPO fieldMaterials, metallurgy
• WIPO sectorChemistry

Abstract

A silicide-based composite toughened with a niobium-based metallic phase, and further containing a phase that significantly improves the oxidation resistance of the composite. The oxidation-resistant phase is a chromium-based Laves-type phase modified with silicon, which has been shown to greatly increase the oxidation resistance of silicide-based composites at temperatures of up to 1200 C. The oxidation-resistant silicide-based composite generally contains one or more silicide intermetallic phases, each of which is an M.sub.5 Si.sub.3 -type phase where M is Nb+Ti+Hf. The niobium-based metallic phase contains niobium, titanium, hafnium, chromium, aluminum and silicon. The silicon-modified Laves-type phase is of the Cr.sub.2 M type where M is Nb+Ti+Hf. A silicide-based composite contains, in atomic percent, about 12-25% titanium, about 6-12% hafnium, about 15-25% chromium, about 1-8% aluminum and about 12-20% silicon, with the balance essentially niobium.