A new parallel plate shear cell for in situ real-space measurements of complex fluids under shear flow

Publication date

2007

Authors

Wu, Yu Ling
Brand, Joost
van Gemert, JosISNI 0000000493227262
Verkerk, Jaap
Wisman, H.
van Blaaderen, AlfonsISNI 0000000388251965
Imhof, ArnoutISNI 0000000369252655

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Article
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Abstract

We developed and tested a parallel plate shear cell that can be mounted on top of an inverted microscope to perform confocal real-space measurements on complex fluids under shear. To follow structural changes in time, a plane of zero velocity is created by letting the plates move in opposite directions. The location of this plane is varied by changing the relative velocities of the plates. The gap width is variable between 20 and 200μm with parallelism better than 1μm . Such a small gap width enables us to examine the total sample thickness using high numerical aperture objective lenses. The achieved shear rates cover the range of 0.02–10 3 s −1 . This shear cell can apply an oscillatory shear with adjustable amplitude and frequency. The maximum travel of each plate equals 1cm , so that strains up to 500 can be applied. For most complex fluids, an oscillatory shear with such a large amplitude can be regarded as a continuous shear. We measured the flow profile of a suspension of silicacolloids in this shear cell. It was linear except for a small deviation caused by sedimentation. To demonstrate the excellent performance and capabilities of this new setup we examined shear induced crystallization and melting of concentrated suspensions of 1μm diameter silicacolloids.

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Citation

Wu, Y L, Brand, J, van Gemert, J, Verkerk, J, Wisman, H, van Blaaderen, A & Imhof, A 2007, 'A new parallel plate shear cell for in situ real-space measurements of complex fluids under shear flow', Review of Scientific Instruments, vol. 78, 103902. https://doi.org/10.1063/1.2794226