Category:Damage mechanics
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Media in category "Damage mechanics"
The following 62 files are in this category, out of 62 total.
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A-Combined-In-Vitro-Imaging-and-Multi-Scale-Modeling-System-for-Studying-the-Role-of-Cell-Matrix-pone.0148254.s004.ogv 5.7 s, 1,920 × 1,084; 5.16 MB
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A-Combined-In-Vitro-Imaging-and-Multi-Scale-Modeling-System-for-Studying-the-Role-of-Cell-Matrix-pone.0148254.s005.ogv 5.7 s, 1,920 × 1,084; 1.48 MB
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A-Tubular-Biomaterial-Construct-Exhibiting-a-Negative-Poissons-Ratio-pone.0155681.s001.ogv 30 s, 640 × 480; 1.53 MB
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A-Tubular-Biomaterial-Construct-Exhibiting-a-Negative-Poissons-Ratio-pone.0155681.s002.ogv 22 s, 640 × 480; 1.63 MB
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A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s018.ogv 12 s, 1,920 × 1,004; 9.71 MB
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A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s019.ogv 12 s, 1,920 × 1,004; 9.17 MB
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Coordination-of-Cellular-Dynamics-Contributes-to-Tooth-Epithelium-Deformations-pone.0161336.s009.ogv 45 s, 960 × 720; 7.02 MB
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Coordination-of-Cellular-Dynamics-Contributes-to-Tooth-Epithelium-Deformations-pone.0161336.s010.ogv 50 s, 1,006 × 968; 12.7 MB
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Coordination-of-Cellular-Dynamics-Contributes-to-Tooth-Epithelium-Deformations-pone.0161336.s011.ogv 27 s, 1,354 × 540; 10.08 MB
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Coordination-of-Cellular-Dynamics-Contributes-to-Tooth-Epithelium-Deformations-pone.0161336.s012.ogv 20 s, 1,024 × 1,024; 2.78 MB
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Coordination-of-Cellular-Dynamics-Contributes-to-Tooth-Epithelium-Deformations-pone.0161336.s013.ogv 30 s, 715 × 720; 12.23 MB
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FISICO-Fast-Image-SegmentatIon-COrrection-pone.0156035.s001.ogv 1 min 47 s, 712 × 480; 12.91 MB
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Fluctuating-Nonlinear-Spring-Model-of-Mechanical-Deformation-of-Biological-Particles-pcbi.1004729.s011.ogv 27 s, 1,281 × 992; 26.85 MB
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Honeycomb-Actuators-Inspired-by-the-Unfolding-of-Ice-Plant-Seed-Capsules-pone.0163506.s001.ogv 6.1 s, 800 × 600; 7.99 MB
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Honeycomb-Actuators-Inspired-by-the-Unfolding-of-Ice-Plant-Seed-Capsules-pone.0163506.s002.ogv 12 s, 824 × 658; 729 KB
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Honeycomb-Actuators-Inspired-by-the-Unfolding-of-Ice-Plant-Seed-Capsules-pone.0163506.s003.ogv 9.8 s, 1,024 × 683; 1.08 MB
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Honeycomb-Actuators-Inspired-by-the-Unfolding-of-Ice-Plant-Seed-Capsules-pone.0163506.s004.ogv 7.3 s, 4,672 × 3,104; 23.3 MB
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Invagination-of-Ectodermal-Placodes-Is-Driven-by-Cell-Intercalation-Mediated-Contraction-of-the-pbio.1002405.s009.ogv 3.9 s, 1,290 × 1,690; 4.26 MB
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Peridynamic-Modeling-of-Ruptures-in-Biomembranes-pone.0165947.s003.ogv 21 s, 512 × 512; 1.56 MB
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Peridynamic-Modeling-of-Ruptures-in-Biomembranes-pone.0165947.s004.ogv 1 min 22 s, 854 × 480; 1.73 MB
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Peridynamic-Modeling-of-Ruptures-in-Biomembranes-pone.0165947.s005.ogv 1 min 32 s, 854 × 480; 1.38 MB
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Soft-Modular-Robotic-Cubes-Toward-Replicating-Morphogenetic-Movements-of-the-Embryo-pone.0169179.s014.ogv 2 min 41 s, 1,920 × 1,080; 81.25 MB
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Tensile-Forces-Originating-from-Cancer-Spheroids-Facilitate-Tumor-Invasion-pone.0156442.s015.ogv 2.0 s, 1,024 × 1,024; 2.56 MB
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Tensile-Forces-Originating-from-Cancer-Spheroids-Facilitate-Tumor-Invasion-pone.0156442.s016.ogv 15 s, 872 × 872; 1.89 MB
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