Tessellated granular packings preserve elastic anisotropy up to 100 times higher than crystalline solids by inheriting voxel properties while restricting grain rearrangements.
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Simulations and crumpled-matter experiments reveal that thermal avalanches in logarithmic creep have a hierarchical spatio-temporal structure in which fast compact cascades facilitate subsequent activations via noise-mediated correlations, producing heavy-tailed temporal statistics.
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Preserving elastic anisotropy with tessellations of granular packings
Tessellated granular packings preserve elastic anisotropy up to 100 times higher than crystalline solids by inheriting voxel properties while restricting grain rearrangements.
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Spatiotemporal Hierarchy of Slow Avalanches During Creep
Simulations and crumpled-matter experiments reveal that thermal avalanches in logarithmic creep have a hierarchical spatio-temporal structure in which fast compact cascades facilitate subsequent activations via noise-mediated correlations, producing heavy-tailed temporal statistics.