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Overview of recent progress in dense suspension rheology
编辑:校办     发布时间:2019-05-10

时间:2019年5月13日(周一)上午 930

地点:校部第八会议室

内容简介:

Suspensions of high-concentration solid particles exhibit intriguing rheological behaviour. Shear thickening, where suspension viscosity increases with shear stress or shear rate, are a ubiquitous feature of many different particle systems and flow processes in nature and industry, particularly for particles of intermediate sizes (diameter 1 μm   d  50 μm). This phenomenon has been traditionally explained as being driven purely by hydrodynamic interactions. However, recent theoretical, modelling and experimental work has shown the inadequacy of this mechanism, by elucidating the important role of frictional particle contact.

In this talk, I will present experimental and simulation evidence for shear thickening

as a transition from a typical colloidal to a granular behaviour, in which the formation of frictional non-hydrodynamic contacts is key. We have directly quantified the contact contribution to the suspension viscosity during shear thickening by means of shear-reversal rheological measurements, providing new and unambiguous evidence.

I will also present our research group’s work in ‘tuning’ of shear thickening and other rheological properties by means of active control or of suspension formulation, as well as progress in studying binary systems.

 

报告人简介:

Dr Jin Sun is a Reader in the School of Engineering at the University of Edinburgh. He graduated from Iowa State University in 2007 with a Ph.D in Mechanical and Chemical Engineering and did postdoctoral research in Chemical Engineering at Princeton University until 2010. His main research interests are in rheology and flow of dense particle systems in industrial and natural environments, such as manufacturing of ceramics, food stuff, battery electrodes and pharmaceuticals and debris and pyroclastic flows. He has been principal investigator of three UK EPSRC projects (total value ~?2.4M), currently leading the “Predictive formulation of high-solid-content complex dispersions” project; and co-investigator on three EU projects (~11M), working on particle-fluid simulation method development.  He has been recently awarded a prestigious Royal Academy of Engineering/ Leverhulme Trust Senior Research Fellowship to explore the novel application of suspension rheology in 4D printing technology.

 

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