Beryllium metal matrix composites for aerospace and commercial applications

There is a growing need in both aerospace and commercial markets for lighter weight, higher stiffness, higher thermal stability materials to solve the design engineers' problems of reduced mass, higher access speeds, improved mechanical and thermal stability for today's advanced technology. To address those needs, Brush Wellman Inc. has developed, characterised, and put into high volume production a family of beryllium metal matrix composites. There are two classes of materials that have been developed to provide these engineering benefits to the designer in both the commercial and aerospace markets, The first family of materials is aluminium beryllium (AlBeMet, which is a registered tradename of Brush Wellman). This material is a metal matrix composite consisting of pure beryllium and aluminium, with 20-62 vol.-%Be and the remainder aluminium. The material is produced by both powder metallurgy and net shape technologies such as investment casting and semi-solid forming. The materials properties that make it attractive for the design engineer are a density that is 25% less than that of aluminium, a specific stiffness four times those of aluminium, titanium, steel, and magnesium, a higher dampening capacity than aluminium, and a coefficient of thermal expansion almost 50% lower than aluminium, The second family of materials is a beryllium - beryllium oxide metal matric: composite, which are called E materials. This material,vas developed to address the thermal management needs of the electronic packaging design engineer. The material properties that make this material attractive to the electronic packaging engineer are: a density 20-25% that of Kovar, Invar, and CuMoCu, and 30% less than;Al-SiC; a thermal conductivity ranging from 210 to 240 W m(-1) K-1 and a tailorable coefficient of thermal expansion, ranging from 6 x 10(-6) to 8.7 x 10(-6) K-1. MST/4548.