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Bulk rheometry at high frequencies: a review of experimental approaches
by
Vermant, Jan
, Van Puyvelde, Peter
, Schroyen, Bram
, Vlassopoulos, Dimitris
in
Characterization and Evaluation of Materials
/ Chemistry and Materials Science
/ Complex Fluids and Microfluidics
/ Food Science
/ Frequency ranges
/ Materials Science
/ Mechanical Engineering
/ Polymer Sciences
/ Review
/ Rheological properties
/ Rheology
/ Rheometers
/ Rheometry
/ S waves
/ Soft and Granular Matter
/ Wave propagation
2020
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Bulk rheometry at high frequencies: a review of experimental approaches
by
Vermant, Jan
, Van Puyvelde, Peter
, Schroyen, Bram
, Vlassopoulos, Dimitris
in
Characterization and Evaluation of Materials
/ Chemistry and Materials Science
/ Complex Fluids and Microfluidics
/ Food Science
/ Frequency ranges
/ Materials Science
/ Mechanical Engineering
/ Polymer Sciences
/ Review
/ Rheological properties
/ Rheology
/ Rheometers
/ Rheometry
/ S waves
/ Soft and Granular Matter
/ Wave propagation
2020
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Do you wish to request the book?
Bulk rheometry at high frequencies: a review of experimental approaches
by
Vermant, Jan
, Van Puyvelde, Peter
, Schroyen, Bram
, Vlassopoulos, Dimitris
in
Characterization and Evaluation of Materials
/ Chemistry and Materials Science
/ Complex Fluids and Microfluidics
/ Food Science
/ Frequency ranges
/ Materials Science
/ Mechanical Engineering
/ Polymer Sciences
/ Review
/ Rheological properties
/ Rheology
/ Rheometers
/ Rheometry
/ S waves
/ Soft and Granular Matter
/ Wave propagation
2020
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Bulk rheometry at high frequencies: a review of experimental approaches
Journal Article
Bulk rheometry at high frequencies: a review of experimental approaches
2020
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Overview
High-frequency rheology is a form of mechanical spectroscopy which provides access to fast dynamics in soft materials and hence can give valuable information about the local scale microstructure. It is particularly useful for systems where time-temperature superposition cannot be used, when there is a need to extend the frequency range beyond what is possible with conventional rotational devices. This review gives an overview of different approaches to high-frequency bulk rheometry, i.e. mechanical rheometers that can operate at acoustic (20 Hz–20 kHz) or ultrasound (> 20 kHz) frequencies. As with all rheometers, precise control and know-how of the kinematic conditions are of prime importance. The inherent effects of shear wave propagation that occur in oscillatory measurements will hence be addressed first, identifying the gap and surface loading limits. Different high-frequency techniques are then classified based on their mode of operation. They are reviewed critically, contrasting ease of operation with the dynamic frequency range obtained. A comparative overview of the different types of techniques in terms of their operating window aims to provide a practical guide for selecting the right approach for a given problem. The review ends with a more forward looking discussion of selected material classes for which the use of high-frequency rheometry has proven particularly valuable or holds promise for bringing physical insights.
Publisher
Springer Berlin Heidelberg,Springer Nature B.V
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