Three-dimensional coherent X-ray diffraction imaging of a ceramic nanofoam: determination of structural deformation mechanisms

A. Barty; A. B. Artyukhin; A. M. Minor; A. Noy; C. Cui; D. A. Shapiro; H. N. Chapman; J. C. H. Spence; J. H. Kinney; J. Ilavsky

arxiv: 0708.4035 · v2 · submitted 2007-08-30 · ❄️ cond-mat.mtrl-sci · physics.optics

Three-dimensional coherent X-ray diffraction imaging of a ceramic nanofoam: determination of structural deformation mechanisms

A. Barty , S. Marchesini , H. N. Chapman , C. Cui , M. R. Howells , D. A. Shapiro , A. M. Minor , J. C. H. Spence

show 10 more authors

U. Weierstall J. Ilavsky A. Noy S. P. Hau-Riege A. B. Artyukhin T. Baumann T. Willey J. Stolken T. van Buuren J. H. Kinney

This is my paper

classification ❄️ cond-mat.mtrl-sci physics.optics

keywords ceramichighimagingnanofoampropertiesstructuralstructurex-ray

0 comments

read the original abstract

Ultra-low density polymers, metals, and ceramic nanofoams are valued for their high strength-to-weight ratio, high surface area and insulating properties ascribed to their structural geometry. We obtain the labrynthine internal structure of a tantalum oxide nanofoam by X-ray diffractive imaging. Finite element analysis from the structure reveals mechanical properties consistent with bulk samples and with a diffusion limited cluster aggregation model, while excess mass on the nodes discounts the dangling fragments hypothesis of percolation theory.

This paper has not been read by Pith yet.

Three-dimensional coherent X-ray diffraction imaging of a ceramic nanofoam: determination of structural deformation mechanisms

discussion (0)