Light, extremely strong material withstands 932°F temperature, could be useful for aerospace

Researchers at the University of Toronto Engineering have developed a novel lightweight and extremely strong metal matrix composite capable of withstanding temperatures up to 932°F (500°C), making it highly promising for aerospace and other high-performance applications. The material mimics the structure of reinforced concrete on a microscopic scale, featuring a titanium alloy mesh acting as "rebar" surrounded by a matrix composed of aluminum, silicon, magnesium, and embedded alumina and silicon nanoprecipitates. This design, enabled by additive manufacturing and micro-casting techniques, allows precise control over the composite’s microstructure, resulting in exceptional strength and thermal resistance. Testing revealed that the composite exhibits a yield strength of around 700 megapascals at room temperature—significantly higher than typical aluminum matrices—and maintains 300 to 400 megapascals at 500°C, compared to just 5 megapascals for conventional aluminum alloys. This performance rivals medium-range steels but at roughly one-third the weight, addressing a critical limitation of aluminum alloys