Thermal expansion of metals reinforced with ceramic particles and microcellular foams

The thermal expansion of three isotropic metal-matrix composites, reinforced with SiC particles or microcellular foam, is measured between 25 degrees C and 325 degrees C. All three composites show initial coefficient of thermal expansion (CTE) values in agreement with the Turner model predictions, and near Schapery's lower-elastic bound for CTE. At higher temperatures, the CTE of foam-reinforced Al decreases, while that of the two particle-reinforced composites increases. These observations are interpreted las resulting from the presence of a very small fraction of microscopic voids within the infiltrated composites. This interpretation is confirmed With finite-element simulations of the influence of voids, cracks, and reinforcement convexity in two-dimensional (2-D) composites featuring: an interconnected reinforcement of SiC surrounding isolated Al phase regions, thermally cycled from an elevated processing temperature: and deforming in generalized plane strain.

Published in:
Metallurgical And Materials Transactions A-Physical Metallurgy And Materials Science, 27, 11, 3700-3717
Mit,dept mat sci & engn,cambridge,ma 02139. westinghouse elect corp,orlando,fl 32826. ecole cent paris,lab mecan sols struct & mat,f-92295 chatenay malabry,france.

 Record created 2006-10-09, last modified 2018-12-03

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