Abstract
with complex hierarchical structure, called architectured materials or archimats, allow to obtain properties unattainable for their standard form. This paper demonstrates that a multi-length scale imaging is essential for explaining unique properties of such materials/structures, in particular mechanical resilience. Original procedures for multi-scale imaging of biological structures/materials using modern microscopic techniques (electron, ion and X-ray microscopy) are described as applied to an integrated multi-scale description of the diatoms’ frustules. The results obtained allowed to advance understanding of their mechanical properties and set the stage for production of advanced structural and functional composite materials.
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