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A method of isolating surface tension and yield stress effects in a U-shaped scanning capillary-tube viscometer using a Casson model
Journal article   Peer reviewed

A method of isolating surface tension and yield stress effects in a U-shaped scanning capillary-tube viscometer using a Casson model

Sangho Kim, Young I. Cho, William N. Hogenauer, Kenneth R. Kensey and Seung-Lae Kim
Journal of non-Newtonian fluid mechanics, v 103(2), pp 205-219
2002
DOI: https://doi.org/10.1016/S0377-0257(02)00004-6

Abstract

Blood Surface tension U-shaped capillary-tube viscometer Viscosity Yield stress
The present study introduces a method to consider different surface tensions at two riser tubes for the viscosity measurements of fluids using a U-shaped scanning capillary-tube viscometer (SCTV). The accuracy and repeatability of the SCTV were demonstrated by comparing the viscosity results of distilled water obtained from the SCTV with the well-accepted reference data for water. Non-Newtonian viscosities of bovine blood containing 7.5% ethylenediaminetetraacetic acid (EDTA) and fresh human blood were measured at 25 °C and at a body temperature of 37 °C, respectively. The viscosity results for bovine blood gave excellent agreement with the results obtained from a rotating viscometer. The results demonstrate that whole blood viscosity can be measured over a range of shear-rates in less than 2–3 min without any anticoagulants using disposable U-shaped capillary-tube sets.

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