In particulate systems with short-range interactions, such as granul ar matter or simple fluids, local structure determines the macroscopic physical properties. We analyse local structure metrics derived from the Voronoi diagram of oblate ellipsoids, for various a spect ratios α and global packing fractions φ g . We focus on jammed static configurations of frictional ellipsoids, obtaine d by tomographic imaging and by discrete element method simulations. The rescaled distribution of local packing fractions φ l, defined as the ratio of particle volume and its Voronoi cell volume, is found to be independent of the particle aspect ratio, and coincide with results for sphere packs. By contrast, the typical Voronoi cell shape , quantified by the Minkowski tensor anisotropy index β=β2,00, points towards a difference between random packings of spheres and those of oblate ellipsoids. While the average cell shape β of all cells with a given value of φ lis similar in dense and loose jammed sphere packings, the structure of dense and loose ellipsoid packings differs substantially such that this does not hold true
Non-universal Voronoi cell shapes in amorphous ellipsoid packs / Schaller, Fabian M.; Kapfer, Sebastian C.; Hilton, James E.; Cleary, Paul W.; Mecke, Klaus; DE MICHELE, Cristiano; Schilling, Tanja; Saadatfar, Mohammad; Schröter, Matthias; Delaney, Gary W.; Schröder Turk, Gerd E.. - In: EUROPHYSICS LETTERS. - ISSN 0295-5075. - ELETTRONICO. - 111:2(2015), p. 24002. [10.1209/0295-5075/111/24002]
Non-universal Voronoi cell shapes in amorphous ellipsoid packs
DE MICHELE, CRISTIANO;
2015
Abstract
In particulate systems with short-range interactions, such as granul ar matter or simple fluids, local structure determines the macroscopic physical properties. We analyse local structure metrics derived from the Voronoi diagram of oblate ellipsoids, for various a spect ratios α and global packing fractions φ g . We focus on jammed static configurations of frictional ellipsoids, obtaine d by tomographic imaging and by discrete element method simulations. The rescaled distribution of local packing fractions φ l, defined as the ratio of particle volume and its Voronoi cell volume, is found to be independent of the particle aspect ratio, and coincide with results for sphere packs. By contrast, the typical Voronoi cell shape , quantified by the Minkowski tensor anisotropy index β=β2,00, points towards a difference between random packings of spheres and those of oblate ellipsoids. While the average cell shape β of all cells with a given value of φ lis similar in dense and loose jammed sphere packings, the structure of dense and loose ellipsoid packings differs substantially such that this does not hold true| File | Dimensione | Formato | |
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