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Laser Aggregometry Assessment of Blood Microrheology in a Slit Fluidic Channel Covered With Endothelial Cells. [PDF]
J BiophotonicsSemenov AN +3 more
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Nuclear quantum dynamics of boric acid as probed by a thermal-to-epithermal neutron station. [PDF]
Sci RepDziedzic-Kocurek K +4 more
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Estimation of Subsurface Shear Wave Velocity via Multiscale Rock Physics and KAN Transformer
Wang, Siyu
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A Novel Variable Volume Capillary Microgripper for Micromanipulation in Aqueous Media. [PDF]
Micromachines (Basel)Mancha-Sánchez E +3 more
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Compaction Evolution and Mechanisms of Granular Materials Due to Gyratory Shearing. [PDF]
Materials (Basel)Man T.
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Nonlinear physics of shear Alfvén waves
AIP Conference Proceedings, 2014Shear Alfven waves (SAW) play fundamental roles in thermonuclear plasmas of fusion interest, since they are readily excited by energetic particles in the MeV range as well as by the thermal plasma components. Thus, understanding fluctuation induced transport in burning plasmas requires understanding nonlinear SAW physics.
Fulvio Zonca, Liu Chen
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On nonlinear physics of shear Alfvén waves
Physics of Plasmas, 2013Shear Alfvén waves (SAW) are electromagnetic oscillations prevalent in laboratory and nature magnetized plasmas. Due to their anisotropic nature, it is well known that the linear wave propagation and dispersiveness of SAW are fundamentally affected by plasma nonuniformities and magnetic field geometries, such as the existence of continuous spectrum ...
Liu Chen, Fulvio Zonca
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Physical gelation under shear for gelatin gels
Rheologica Acta, 1997Physical gelation is the process of crosslinking which reversibly transforms a solution of polymers into a gel. The crosslinks of the network have a physical origin (hydrogen bonding, Van der Waals forces... ) and therefore are sensitive to variations of temperature, pH, ionic content, etc. (non-permanent crosslinks).
Walter de Carvalho, M. Djabourov
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Wall Shear Rate method validation through multi-physics simulations
2015 IEEE International Ultrasonics Symposium (IUS), 2015Wall Shear Stress (WSS), i.e. the tangential force that blood applies to the inner layer of the vessel wall, is associated with arterial remodeling and important cardiovascular diseases like the formation of atherosclerotic plaques. In simple, uniaxial flows, WSS can be derived as the blood viscosity multiplied by the Wall Shear Rate (WSR), i.e.
RICCI, STEFANO +4 more
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