A unified microscopic theory predicts the coupled time evolution of stress relaxation, structural recovery, and memory effects in dense glass-forming Brownian suspensions after flow cessation.
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Laser powder bed fusion of a TPU/NdFeB composite produces tunable magnetic actuators that contract to lift 32x their weight, crawl on textured surfaces, and grasp objects under 300-500 mT fields.
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Unified Microscopic Theory of Stress Relaxation, Structural Evolution, and Memory Effects in Dense Glass Forming Brownian Suspensions After Flow Cessation
A unified microscopic theory predicts the coupled time evolution of stress relaxation, structural recovery, and memory effects in dense glass-forming Brownian suspensions after flow cessation.
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Muscle-inspired magnetic actuators that push, pull, crawl, and grasp
Laser powder bed fusion of a TPU/NdFeB composite produces tunable magnetic actuators that contract to lift 32x their weight, crawl on textured surfaces, and grasp objects under 300-500 mT fields.