1. Determining true material constants of semisolid slurries from rotational rheometer data
- Author
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Alexandrou, Andreas N., Georgiou, G. C., Economides, E. A., Modigell, M., Rassili A., and Georgiou, Georgios C. [0000-0002-7451-224X]
- Subjects
Work (thermodynamics) ,Materials science ,Bins ,Rheometer ,Material constants ,Strain ,Common point ,General Materials Science ,Composite material ,Couette flow ,Couette rheometers ,Viscoplastic materials ,Rheometry ,Experimental data ,Strain rate ,Mechanics ,Semi-solid slurry ,Condensed Matter Physics ,Rheometers ,Atomic and Molecular Physics, and Optics ,Material constant ,Elastomers ,Herschel-Bulkley model ,Slurry ,Semisolid slurries ,Couette rheometer - Abstract
In this work we revisit the issue of obtaining true material constants for semisolid slurries. Therefore, we consider the circular Couette flow of Herschel-Bulkley fluids. We first show how true constants can be obtained using an iterative procedure from experimental data to theory and vice versa. The validity of the assumption that the rate-of-strain distributions across the gap share a common point is also investigated. It is demonstrated that this is true only for fully-yielded Bingham plastics. In other cases, e.g., for partially-yielded Bingham plastics or fully-yielded Herschel-Bulkley materials, the common point for the fully-yielded Bingham case provides a good approximation for determining the material constants only if the gap is sufficiently small. It can thus be used to simplify the iterative procedure in determining the material constants. © 2016 Trans Tech Publications, Switzerland. 256 153 172 Sponsors: Conference code: 184809
- Published
- 2016