Abstract
Nuclear-magnetic-resonance (NMR) flow imaging with spatial resolution of the order of 200 μm is used to measure the velocity fields in aqueous solutions of 0.2% and 1% xanthan gum and 1% guar gum for steady flow in a 1.2 cm internal diameter cylindrical polymethylmethacrylate pipe. The velocity fields show little evidence of apparent wall slip and are differentiated to obtain relationships between shear stress and shear rate which span over four decades in shear rate for the xanthan solutions and approximately three decades for the guar solution; these data agree well with those obtained by cone-and-plate viscometry. The behavior of the xanthan solutions is well described by a power-law dependence of shear stress on shear rate, and the guar solution is better described by a Cross-type relationship. The implications of these studies for future NMR flow imaging studies of more complex systems are discussed.
Published Version
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