Results 271 to 280 of about 132,472 (337)
Significance of Reynolds Number Consistency in Non-Newtonian Hemodynamic Simulations: Insights from Fontan Circulation. [PDF]
Phys Fluids (1994)Bilgi C, Wei H, Cheng AL, Pahlevan NM.
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Beyond Strict Physics: Using Poiseuille's Law as a Practical Framework to Optimize and Personalize Cementoplasty. [PDF]
J Pers MedGrange S +7 more
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Nonlinear flow characteristics of cement grout in fractures with varying geometries. [PDF]
Sci RepLi X, Zhao W, Zhang J, Ma Y, Chen L.
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Sensitivity analysis of factors in a microfluidics CFD model of coagulation and cardiac applications. [PDF]
Biomech Model MechanobiolMelidoro P +6 more
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On the effect of a large cloud of rigid particles on the motion of an incompressible non–Newtonian fluid [PDF]
Feireisl, E., Roy, A., Zarnescu, A.
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2021
In this chapter we concentrate on a large class of problems arising from the dynamics of incompressible non-Newtonian fluids with nonstandard rheology. By non-Newtonian fluids we mean here fluids which do not satisfy Newton’s law of viscosity, i.e. viscosity is constant and independent of stress.
Iwona Chlebicka +3 more
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In this chapter we concentrate on a large class of problems arising from the dynamics of incompressible non-Newtonian fluids with nonstandard rheology. By non-Newtonian fluids we mean here fluids which do not satisfy Newton’s law of viscosity, i.e. viscosity is constant and independent of stress.
Iwona Chlebicka +3 more
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2016
How could you characterize a liquid? You could start with its color, maybe talk about its smell or taste (watch out!) and consider its acidity (lime juice or soap). But sooner or later you will think about the liquid’s viscosity. The viscosity quantifies what we use to call a “thick” or “thin” liquid.
Benjamin Bahr +2 more
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How could you characterize a liquid? You could start with its color, maybe talk about its smell or taste (watch out!) and consider its acidity (lime juice or soap). But sooner or later you will think about the liquid’s viscosity. The viscosity quantifies what we use to call a “thick” or “thin” liquid.
Benjamin Bahr +2 more
openaire +1 more source
Artificial Life, 2016
New types of robots inspired by biological principles of assembly, locomotion, and behavior have been recently described. In this work we explored the concept of robots that are based on more fundamental physical phenomena, such as fluid dynamics, and their potential capabilities. We report a robot made entirely of non-Newtonian fluid, driven by shear
Guy, Hachmon +6 more
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New types of robots inspired by biological principles of assembly, locomotion, and behavior have been recently described. In this work we explored the concept of robots that are based on more fundamental physical phenomena, such as fluid dynamics, and their potential capabilities. We report a robot made entirely of non-Newtonian fluid, driven by shear
Guy, Hachmon +6 more
openaire +2 more sources
Regularity of Non-Newtonian Fluids
Journal of Mathematical Fluid Mechanics, 2013zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Bae, Hyeong-Ohk, Jin, Bum Ja
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