Results 161 to 170 of about 45,363 (219)
Statistics of multiscale fragmentation in the Primorsky fault zone. [PDF]
Sci RepOstapchuk A +3 more
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Enhanced Numerical Modeling of Non-Newtonian Particle-Laden Flows: Insights from the Carreau-Yasuda Model in Circular Tubes. [PDF]
Polymers (Basel)Amangeldi M, Wei D, Perveen A, Zhang D.
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Helical flow of power‐law fluids
AIChE Journal, 1990A numerical solution is presented for the helical flow of a power-law fluid between coaxial cylinders. The solution is valid for isothermal steady creeping flow in an annular space of arbitrary thickness. Results are presented in the form of relations between dimensionless integral flow characteristics (e.g.
J. Sestak +3 more
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Marangoni convection of power law fluids driven by power-law temperature gradient
Journal of the Franklin Institute, 2012zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Liancun Zheng +2 more
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Sedimentation of a circular disk in power law fluids
Journal of Colloid and Interface Science, 2006The continuity and momentum equations have been solved numerically for the two-dimensional steady flow of power law fluids over a thin circular disk oriented normal to the direction of flow. Extensive results on the individual and total drag coefficients are obtained as functions of the power law flow behavior index (0.4 < or = n < or = 1.0), Reynolds ...
S, Nitin, R P, Chhabra
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Spreading dynamics of power-law fluid droplets
Journal of Physics: Condensed Matter, 2009This paper aims at providing a summary of the theoretical models available for non-Newtonian fluid spreading dynamics. Experimental findings and model predictions for a Newtonian fluid spreading test are briefly reviewed. Then how the complete wetting and partial wetting power-law fluids spread over a solid substrate is examined. The possible extension
Zhan-Peng, Liang +4 more
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On the boundary–layer equations for power–law fluids
Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences, 2004Summary: We reconsider the problem of the boundary-layer flow of a non-Newtonian fluid whose constitutive law is given by the classical Ostwald-de Waele power-law model. The boundary-layer equations are solved in similarity form. The resulting similarity solutions for shear-thickening fluids are shown to have a finite-width crisis resulting in the ...
Denier, J., Dabrowski, P.
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Stretching a Surface in a Rotating Power‐Law Fluid
ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik, 1995The authors consider the steady flow of an incompressible power-law fluid past a horizontal stretching plate that rotates around a vertical axis. The equations are formulated for the velocity and the stress tensor. Assuming the boundary layer approximation from [the authors, Z. Angew. Math. Mech. 75, No.
Gorla, R. S. R. +2 more
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