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Burger equation. --- Thin films. --- Three dimensional flow. --- Partial differential equations. --- Pressure gradients. --- Gravitation.
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Earth Resources Program. --- Ocean surface. --- Pressure gradients. --- Sea level. --- SEASAT satellites. --- Surface properties.
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Laser doppler velocimeters. --- Pressure gradients. --- Reversed flow. --- Reynolds stress. --- Turbulence models.
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Shock waves. --- Turbulent boundary layer. --- Shock waves. --- Pressure gradients. --- Turbulent boundary layer.
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Wind (meteorology) --- Launch vehicles. --- Pressure gradients. --- Graphical user interface. --- Base pressure. --- Forecasting.
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Large eddy simulation. --- Film cooling. --- Pressure gradients. --- Reynolds averaging. --- Turbulent mixing. --- Turbulent boundary layer.
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Leakage. --- Seals (stoppers) --- Compression loads. --- Adhesion. --- Loads (forces) --- Pressure gradients. --- Low Earth orbits.
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Aerospace engineering. --- Autoclaving. --- Composite materials. --- Fabrication. --- Flow distribution. --- Heat transfer coefficients. --- Laminates. --- Pressure gradients. --- Resins. --- Thermosetting resins. --- Time dependence.
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Matériaux poreux --- Milieux continus, mécanique des --- Mécanique --- 532.511 --- 624.131 --- Dynamic equations of motion. Euler's equation. Lagrange's equation. Equation of continuity --- Soil mechanics. Structural soil technology. Technical and economic studies --- 624.131 Soil mechanics. Structural soil technology. Technical and economic studies --- 532.511 Dynamic equations of motion. Euler's equation. Lagrange's equation. Equation of continuity --- Matériaux poreux --- Milieux continus, mécanique des --- Mécanique --- Porosity. --- Porous materials. --- Pressure gradients
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Advanced experimental and computational biomechanics have become essential components to better understand the physiological and pathological conditions of biological tissues in the human body. Recent advances in medical imaging modalities, image segmentation, tissue characterization experiments, and predictive computer simulations have made major contributions to transforming current therapeutic paradigms, towards the facilitation of patient-specific diagnostics and individualized surgery planning. This Special Issue of Bioengineering on Advances in Biological Tissue Biomechanics, therefore, focuses on research dealing with cutting-edge experimental and computational methodologies for biomechanical investigations of tissues in the human body system across multiple spatial and temporal scales.
Research & information: general --- Biology, life sciences --- computational fluid dynamics --- bileaflet mechanical heart valve --- adverse hemodynamics --- transvalvular pressure gradients --- turbulent shear stresses --- blood damage --- platelet activation --- aortic valve --- calcification --- elastin degradation --- leaflet --- curvature --- biomarker --- early detection --- porcine brain --- mechanical behavior --- hydration effects --- Split-Hopkinson pressure bar --- micromechanics --- finite element analysis --- collagen crimp --- elastin --- microstructures --- force-controlled mechanical testing --- the tricuspid valve --- functional tricuspid regurgitation --- cardiovascular imaging --- mechanical characterization --- in-vitro experiments --- constitutive modeling --- geometrical modeling --- finite element modeling --- isogeometric analysis (IGA) --- biaxial mechanical characterization --- fluid-structure interactions --- material anisotropy --- sub-valvular components --- soft tissue --- liver --- high-rate compression --- polymeric split-Hopkinson pressure bar --- pentagalloyl glucose --- aneurysm --- enzyme --- biomechanics --- aorta --- biaxial mechanical testing --- cardiac valves --- osmotic swelling --- parameter estimation --- nonlinear preconditioning --- gradient-based minimization --- cirrus --- myocardium --- stiffness --- viscoelastic property --- anisotropy --- fibrosis --- the mitral valve --- collagen fiber architecture --- glycosaminoglycan --- uniaxial mechanical testing --- in-vitro flow loops --- polarized spatial frequency domain imaging --- tricuspid regurgitation --- spatial alignment --- collagen fiber reorientation --- in vivo stress/strain quantification --- constitutive models --- soft tissues --- growth and remodeling (G & R) --- multiscale biomechanics --- patient-specific modeling --- computational fluid dynamics --- bileaflet mechanical heart valve --- adverse hemodynamics --- transvalvular pressure gradients --- turbulent shear stresses --- blood damage --- platelet activation --- aortic valve --- calcification --- elastin degradation --- leaflet --- curvature --- biomarker --- early detection --- porcine brain --- mechanical behavior --- hydration effects --- Split-Hopkinson pressure bar --- micromechanics --- finite element analysis --- collagen crimp --- elastin --- microstructures --- force-controlled mechanical testing --- the tricuspid valve --- functional tricuspid regurgitation --- cardiovascular imaging --- mechanical characterization --- in-vitro experiments --- constitutive modeling --- geometrical modeling --- finite element modeling --- isogeometric analysis (IGA) --- biaxial mechanical characterization --- fluid-structure interactions --- material anisotropy --- sub-valvular components --- soft tissue --- liver --- high-rate compression --- polymeric split-Hopkinson pressure bar --- pentagalloyl glucose --- aneurysm --- enzyme --- biomechanics --- aorta --- biaxial mechanical testing --- cardiac valves --- osmotic swelling --- parameter estimation --- nonlinear preconditioning --- gradient-based minimization --- cirrus --- myocardium --- stiffness --- viscoelastic property --- anisotropy --- fibrosis --- the mitral valve --- collagen fiber architecture --- glycosaminoglycan --- uniaxial mechanical testing --- in-vitro flow loops --- polarized spatial frequency domain imaging --- tricuspid regurgitation --- spatial alignment --- collagen fiber reorientation --- in vivo stress/strain quantification --- constitutive models --- soft tissues --- growth and remodeling (G & R) --- multiscale biomechanics --- patient-specific modeling