Electromagnetically Spinning Sphere Viscometer

Sakai, Keiji; Hirano, Tetsufumi; Hosoda, Masahiro

doi:10.1143/apex.3.016602

Cited by 50 publications

(48 citation statements)

References 9 publications

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“…A newly developed electromagnetic spinning sphere (EMS) viscometer has the ability to measure a small amount of samples quickly and sequentially in a non-contact disposable manner and skips the time-consuming washing process after each sample measurement. [20][21] We previously introduced the measurement of blood viscosity with the EMS viscometer and reported our findings on control volunteers. 22 In the present study, we measured blood viscosity in acute ischemic stroke patients and discussed the importance of blood viscosity measurements in terms of differential diagnoses and the treatment of ischemic stroke.…”

Section: Introductionmentioning

confidence: 91%

Increased Blood Viscosity in Ischemic Stroke Patients with Small Artery Occlusion Measured by an Electromagnetic Spinning Sphere Viscometer

Furukawa

Abumiya

Sakai

et al. 2016

Journal of Stroke and Cerebrovascular Diseases

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Section: Introductionmentioning

confidence: 91%

Increased Blood Viscosity in Ischemic Stroke Patients with Small Artery Occlusion Measured by an Electromagnetic Spinning Sphere Viscometer

Furukawa

Abumiya

Sakai

et al. 2016

Journal of Stroke and Cerebrovascular Diseases

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“…The relationship between torque and angular speed is related to the viscosity of the fluid. Rotational viscometers include the cup and bob, cone and plate, and electromagnetically spinning sphere types [25]. Plaisted [15] used a cone and plate viscometer to estimate the initial viscosity of 2MEP4FS prepolymer as 0.112 Pa·s (112 cP) at 90 °C.…”

Section: Application To Viscosity Measurementsmentioning

confidence: 99%

“…The electromagnetically spinning sphere approach is possible but limited to 10 Pa·s [25], which is too low for the present materials at room temperature. Effectively transferring this small quantity of prepolymer to a cone and plate-type viscometer would be challenging.…”

Section: Application To Viscosity Measurementsmentioning

confidence: 99%

Thermally reversible cross-links in a healable polymer: Estimating the quantity, rate of formation, and effect on viscosity

Nielsen

Weizman

Nemat‐Nasser

2014

Polymer

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Thermally reversible cross-links in a healable polymer: Estimating the quantity, rate of formation, and effect on viscosity The conversion behavior of 2MEP4FS, a polymer with thermally reversible Diels-Alder crosslinks, is modeled. A processing method is developed to create small, homogeneous prepolymer samples. The glass transition temperature of the prepolymer is estimated using temperature modulated differential scanning calorimetry and equated with the conversion of the polymer.Comparing the measured energy with the literature and computational estimates, the fully cured polymer appears to have a large portion of its moieties unreacted. An autocatalytic model is considered to approximate the reaction rate of 2MEP4FS as a function of conversion and temperature. Outside of the fitted temperature range, the model underpredicts the reaction rates at room temperature and 100 °C. Manual mixing of the monomers is determined to be inadequate to obtain a maximum level of cross-linking. Viscosity measurements made at room temperature and elevated temperatures are correlated with the conversion of the prepolymer.

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“…This enables the measurement of the rheological properties of micro-to pico-litre volumes of viscous fluids [23] and in vivo testing [32]. Furthermore, non-mechanical control is essential in such viscometers, as the friction between the rotational axis of the sphere and the mechanical support often restricts the lower limit of viscosity measurement [22].…”

Section: Discussionmentioning

confidence: 99%

Torsional oscillations of a sphere in a Stokes flow

2015

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The results of an experimental investigation of a sphere performing torsional oscillations in a Stokes flow are presented. A novel experimental set up was developed which enabled the motion of the sphere to be remotely controlled through application of an oscillatory magnetic field. The response of the sphere to the applied field was characterised in terms of the viscous, magnetic and gravitational torques acting on the sphere. A mathematical model of the system was developed and good agreement was found between experimental and theoretical results. The flow resulting from the motion of the sphere was measured and the fluid velocity was found to have an inverse square dependence on radial distance from the sphere. Agreement between measurements and the analytical solution for the fluid velocity indicates that the flow may be considered Stokesian.

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Electromagnetically Spinning Sphere Viscometer

Cited by 50 publications

References 9 publications

Increased Blood Viscosity in Ischemic Stroke Patients with Small Artery Occlusion Measured by an Electromagnetic Spinning Sphere Viscometer

Increased Blood Viscosity in Ischemic Stroke Patients with Small Artery Occlusion Measured by an Electromagnetic Spinning Sphere Viscometer

Thermally reversible cross-links in a healable polymer: Estimating the quantity, rate of formation, and effect on viscosity

Torsional oscillations of a sphere in a Stokes flow

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