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Microstructural optimization of a functionally gradient layer

Publication ,  Journal Article
Nadeau, JC; Ferrari, M
Published in: American Society of Mechanical Engineers, Materials Division (Publication) MD
December 1, 1997

This paper addresses the microstructural optimization of an infinite, transversely isotropic layer which is free of tractions and subjected to a prescribed thermal gradient. The layer's microstructure is characterized as a bi-phase composite in the form of a continuous matrix perfectly bonded to embedded spheroidal reinforcements. The microstructural characterization of the FGM is taken to be the volume fraction, aspect ratio and orientation distribution function of the second phase. The composite layer is made functionally gradient by taking the aforementioned parameters to vary through the thickness of the layer. The effective properties of the bi-phase composite are obtained by appropriate homogenization theories. The microstructural parameters are determined such that an objective function, defined in terms of strain energy and curvature, is minimized. Specific results are presented for an aluminum (Al) layer reinforced with silicon carbide (SiC). Comparisons are made to conventional coating technology.

Duke Scholars

Published In

American Society of Mechanical Engineers, Materials Division (Publication) MD

ISSN

1071-6939

Publication Date

December 1, 1997

Volume

80

Start / End Page

3 / 10

Related Subject Headings

  • Materials
 

Citation

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Nadeau, J. C., & Ferrari, M. (1997). Microstructural optimization of a functionally gradient layer. American Society of Mechanical Engineers, Materials Division (Publication) MD, 80, 3–10.
Nadeau, J. C., and M. Ferrari. “Microstructural optimization of a functionally gradient layer.” American Society of Mechanical Engineers, Materials Division (Publication) MD 80 (December 1, 1997): 3–10.
Nadeau JC, Ferrari M. Microstructural optimization of a functionally gradient layer. American Society of Mechanical Engineers, Materials Division (Publication) MD. 1997 Dec 1;80:3–10.
Nadeau, J. C., and M. Ferrari. “Microstructural optimization of a functionally gradient layer.” American Society of Mechanical Engineers, Materials Division (Publication) MD, vol. 80, Dec. 1997, pp. 3–10.
Nadeau JC, Ferrari M. Microstructural optimization of a functionally gradient layer. American Society of Mechanical Engineers, Materials Division (Publication) MD. 1997 Dec 1;80:3–10.

Published In

American Society of Mechanical Engineers, Materials Division (Publication) MD

ISSN

1071-6939

Publication Date

December 1, 1997

Volume

80

Start / End Page

3 / 10

Related Subject Headings

  • Materials