Virtual Materials Design: Properties of Cellular Solids Derived from 3D Tomographic Images

Properties of cellular solids are a direct consequence of their complex microstructure. Linking properties to structure will lead to an understanding of how these materials can be engineered for given applications. Three dimensional images of a number of industrial cellular foam morphologies are exp...

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Published in:Advanced engineering materials 2005-04, Vol.7 (4), p.238-243
Main Authors: Knackstedt, M A., Arns, C. H., Saadatfar, M., Senden, T. J., Sakellariou, A., Sheppard, A. P., Sok, R. M., Schrof, W., Steininger, H.
Format: Article
Language:English
Subjects:
Cellular materials
Cross-disciplinary physics: materials science
rheology
Exact sciences and technology
Materials design
Materials science
Other materials
Physics
Specific materials
Tomography
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container_end_page 243
container_issue 4
container_start_page 238
container_title Advanced engineering materials
container_volume 7
creator Knackstedt, M A.
Arns, C. H.
Saadatfar, M.
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Sakellariou, A.
Sheppard, A. P.
Sok, R. M.
Schrof, W.
Steininger, H.
description Properties of cellular solids are a direct consequence of their complex microstructure. Linking properties to structure will lead to an understanding of how these materials can be engineered for given applications. Three dimensional images of a number of industrial cellular foam morphologies are experimentally acquired via micro‐CT; structural characteristics and physical properties are calculated directly on the images. Comparisons with common empirical and theoretical estimates and experimental data are encouraging.
doi_str_mv 10.1002/adem.200400212
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subjects Cellular materials
Cross-disciplinary physics: materials science
rheology
Exact sciences and technology
Materials design
Materials science
Other materials
Physics
Specific materials
Tomography
title Virtual Materials Design: Properties of Cellular Solids Derived from 3D Tomographic Images
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