Flow Properties of Pseudoplastic Liquids |
Contents
The Rotational Viscometer | 2 |
Pipe Viscometers | 3 |
B Viscometry and Flow of Newtonian Liquids | 12 |
38 other sections not shown
Common terms and phrases
Apparent Rate apparent viscosity Baker Bernoulli equation calculated calibration curve capillary viscometer centrifuging CMC solutions CMC-H solutions CMC-L Coefficient versus Reynolds consistency curves obtained constant contraction coefficients cross section Decrease in Consistency degree of pseudoplasticity Discharge Coefficient versus discrepancy downcurve dynes/cm2 energy loss enlargement and contraction experimental Fanning friction factor Figure fluid increase Infinite Shear Rate inner cylinder intrinsic viscosity investigation kinetic energy laminar flow loop curve Newtonian calibration Newtonian liquids pipe apparatus pipe viscometers plastic Poiseuille's law polymer polymethyl methacrylate Pressure Differential pressure drop pressure tap pseudoplastic flow pseudoplastic material radius rate of shear Reynolds Number Based Rotational and Capillary rotational viscometer sample Shear at Wall shear rate shear stress Temp temperature thixotropy tion torque True Rate Tube turbulent flow uncentrifuged velocity Venturi meter versus Reynolds Number Viscometer 1F viscosity at infinite viscosity at zero wall effect zero shear