OpenStudy (anonymous):
Does anybody here have one of (or more) paper below
OpenStudy (anonymous):
N. Frankel, A. Acrivos, On the viscosity of a concentrated suspension of solid spheres, Chem. Eng. Sci. 22 (6) (1967) 847–853. T.S. Lundgren, Slow flow through stationary random beds and suspensions of spheres, J. Fluid Mech. 51 (2) (1972) 273–299. G. Batchelor, The effect of Brownian motion on the bulk stress in a suspension of spherical particles, J. Fluid Mech. 83 (01) (1977) 97–117. A.L. Graham, On the viscosity of suspensions of solid spheres, Appl. Sci. Res. 37 (3) (1981) 275–286 T. Kitano, T. Kataoka, T. Shirota, An empirical equation of the relative viscosity of polymer melts filled with various inorganic fillers, Rheol. Acta 20 (2) (1981) 207–209 J. Bicerano, J.F. Douglas, D.A. Brune, Model for the viscosity of particle dispersions, J. Macromol. Sci. Rev. Macromol. Chem. Phys. 39 (4) (1999) 561– 642. W.J. Tseng, K.C. Lin, Rheology and colloidal structure of aqueous TiO2 nanoparticle suspensions, Mater. Sci. Eng. A 355 (1–2) (2003) 186–192. W.J. Tseng, C.N. Chen, Effect of polymeric dispersant on rheological behavior of nickel–terpineol suspensions, Mater. Sci. Eng., A 347 (1–2) (2003) 145– 153. H. Chen, Y. Ding, Y. He, C. Tan, Rheological behaviour of ethylene glycol based titania nanofluids, Chem. Phys. Lett. 444 (4–6) (2007) 333–337. H. Brinkman, The viscosity of concentrated suspensions and solutions, J. Chem. Phys. 20 (1952) 571 G. Batchelor, The effect of Brownian motion on the bulk stress in a suspension of spherical particles, J. Fluid Mech. 83 (01) (1977) 97–117. J. Avsec, M. Oblak, The calculation of thermal conductivity, viscosity and thermodynamic properties for nanofluids on the basis of statistical nanomechanics, Int. J. Heat Mass Transfer 50 (21–22) (2007) 4331–4341. N.S. Cheng, A.W.K. Law, Exponential formula for computing effective viscosity, Powder Technol. 129 (1–3) (2003) 156–160. F.M. White, Viscous Fluid Flow, McGraw-Hill, New York, 1991. C.L. Yaws, Physical Properties: A Guide to the Physical, thermodynamic and transport property data of industrially important chemical compounds, McGraw-Hill, 1977. D.P. Kulkarni, D.K. Das, G.A. Chukwu, Temperature dependent rheological property of copper oxide nanoparticles suspension (nanofluid), J. Nanosci. Nanotechnol. 6 (4) (2006) 1150–1154. E. Abu-Nada, Effects of variable viscosity and thermal conductivity of Al2O3– water nanofluid on heat transfer enhancement in natural convection, Int. J. Heat Fluid Flow 30 (4) (2009) 679–690. N. Masoumi, N. Sohrabi, A. Behzadmehr, A new model for calculating the effective viscosity of nanofluids, J. Phys. D Appl. Phys. 42 (5) (2009) 055501.
hartnn (hartnn):
are these IEEE papers ?
OpenStudy (anonymous):
sciencedirect, IOP, and cambridge journal.,
hartnn (hartnn):
well, i don't have any of these, but have an IEEE subscription, so i can download it if any of these is from IEEE...
OpenStudy (anonymous):
ok, no problem, thank u for coming :)
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