Rotational rheometry of liquid metal systems: Measurement geometry selection and flow curve analysis

Rotational rheometry of liquid metal systems: Measurement geometry selection and flow curve analysis

In the present study, a rotational measurement technique was used to evaluate viscosities of liquid metals and metallic alloys. Three types of measurement geometries in a high temperature rotational rheometer were evaluated: cone and plate, DIN coaxial, and double concentric cylinder (DCC). The DCC...

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Veröffentlicht in:Journal of non-Newtonian fluid mechanics 2010-07, Vol.165 (13), p.733-742
Hauptverfasser: Malik, Mohammad Minhajuddin, Jeyakumar, Manickaraj, Hamed, Mohamed S., Walker, Michael J., Shankar, Sumanth
Format: Artikel
Sprache:eng
Schlagworte:
Alloys
Cross-disciplinary physics: materials science
rheology
Double concentric cylinder
Exact sciences and technology
Liquid metal
Liquid metals
Measuring geometry
Melts
Physics
Rheology
Rheometry
Rotational
Shear rate
Shear viscosity
Techniques and apparatus
Viscosity
Viscosity measurements
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Zusammenfassung:In the present study, a rotational measurement technique was used to evaluate viscosities of liquid metals and metallic alloys. Three types of measurement geometries in a high temperature rotational rheometer were evaluated: cone and plate, DIN coaxial, and double concentric cylinder (DCC). The DCC geometry proved to be the most effective. An analytical solution has been presented to evaluate the viscosity as a function of shear rate for DCC geometry. The flow curves and shear viscosities of pure Al, pure Zn and Sn 95.8Ag 3.28Cu 0.92 solder alloy have been evaluated as a function of shear rate and melt superheat temperature. It is proposed that liquid metal systems are non-Newtonian and strongly shear thinning in flow behavior.
ISSN:0377-0257
1873-2631
DOI:10.1016/j.jnnfm.2010.03.009