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Erschienen in: Rheologica Acta 11/2018

22.09.2018 | Original Contribution

Evaluating rheological models for human blood using steady state, transient, and oscillatory shear predictions

verfasst von: Matthew Armstrong, Jeffrey Horner, Michael Clark, Michael Deegan, Timothy Hill, Charles Keith, Lynne Mooradian

Erschienen in: Rheologica Acta | Ausgabe 11/2018

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Abstract

The rheological characterization of human blood, through modeling and analysis of steady state, transient, and oscillatory shear flows, has made tremendous progress recently. Due to the aggregation of red blood cells at low shear rates, many recent models for blood rheology include a structural, thixotropic component with one of the most recent attempts unifying this approach with a viscoelastic formulation. We will show how these models, along with proposed modifications to another recent structural, kinetic thixotropy model, can improve modeling predictions. Results are compared to the Maxwell-like Bautista-Manero-Puig model, the Oldroyd-8 inspired viscoelastic Anand-Kwack-Masud model, a viscoelastic-thixotropic model from Blackwell and Ewoldt, and the Herschel-Bulkley model. We explore the weaknesses of the legacy blood models and then demonstrate the efficacy of the newly improved models for modeling human blood steady state and transient shear rheology to predict oscillatory shear flow.

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Metadaten
Titel
Evaluating rheological models for human blood using steady state, transient, and oscillatory shear predictions
verfasst von
Matthew Armstrong
Jeffrey Horner
Michael Clark
Michael Deegan
Timothy Hill
Charles Keith
Lynne Mooradian
Publikationsdatum
22.09.2018
Verlag
Springer Berlin Heidelberg
Erschienen in
Rheologica Acta / Ausgabe 11/2018
Print ISSN: 0035-4511
Elektronische ISSN: 1435-1528
DOI
https://doi.org/10.1007/s00397-018-1109-5

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