X-ray scattering in the vorticity direction and rheometry from confined fluids

Pfleiderer, Patrick; Baik, Seung Jae; Zhamg, Zhenkun; Vleminckx, Giovanni; Lettinga, Minnie Paul; Grelet, Eric; Vermant, Jan; Clasen, Christian

Publikation:
X-ray scattering in the vorticity direction and rheometry from confined fluids

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Pfleiderer_0-263681.pdfGröße: 843.02 KBDownloads: 580

Datum

2014

Autor:innen

Pfleiderer, Patrick

Baik, Seung Jae

Zhamg, Zhenkun

Vleminckx, Giovanni

Lettinga, Minnie Paul

Grelet, Eric

Vermant, Jan

Clasen, Christian

Open Access-Veröffentlichung

Open Access Green

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Physik: Publikationen

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Published

Erschienen in

Review of Scientific Instruments. 2014, 85, 065108. ISSN 0034-6748. eISSN 1089-7623. Available under: doi: 10.1063/1.4881796

Zusammenfassung

An X-ray flexure-based microgap rheometer (X-FMR) has been designed for combining rheology and in situ small-angle X-ray scattering from the vorticity plane. The gap distance can be varied continuously from 500 μm down to several μm, which provides the unique possibility to generate a strong confinement for many complex fluids. A singular advantage of this setup is the possibility to directly probe the vorticity direction of the flow field with a microfocus X-ray beam and to probe the structural response of the fluid to combined shear and confinement in the vorticity plane. The sliding-plate setup operates over a wide range of shear rates of γ̇ = 10⁻³–10³ s⁻¹and strains in the range of 10⁻⁴–10². The flexure-based bearing maintains the plate parallelism within 10⁻⁵ rad. The X-FMR requires very small sample volumes on the order of 10 μl. The applicability of the device is demonstrated here with limited examples of a nematic suspension of fd virus (rods), and a crystalline suspension containing sterically stabilized polystyrene-butylacrylate latex particles.

Fachgebiet (DDC)

530 Physik

Schlagwörter

Suspensions, X-ray scattering, viruses, vortex dynamics, shear flows

Zitieren

ISO 690

PFLEIDERER, Patrick, Seung Jae BAIK, Zhenkun ZHAMG, Giovanni VLEMINCKX, Minnie Paul LETTINGA, Eric GRELET, Jan VERMANT, Christian CLASEN, 2014. X-ray scattering in the vorticity direction and rheometry from confined fluids. In: Review of Scientific Instruments. 2014, 85, 065108. ISSN 0034-6748. eISSN 1089-7623. Available under: doi: 10.1063/1.4881796

BibTex

@article{Pfleiderer2014scatt-29868,
  year={2014},
  doi={10.1063/1.4881796},
  title={X-ray scattering in the vorticity direction and rheometry from confined fluids},
  volume={85},
  issn={0034-6748},
  journal={Review of Scientific Instruments},
  author={Pfleiderer, Patrick and Baik, Seung Jae and Zhamg, Zhenkun and Vleminckx, Giovanni and Lettinga, Minnie Paul and Grelet, Eric and Vermant, Jan and Clasen, Christian},
  note={Article Number: 065108}
}

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    <dcterms:abstract xml:lang="eng">An X-ray flexure-based microgap rheometer (X-FMR) has been designed for combining rheology and in situ small-angle X-ray scattering from the vorticity plane. The gap distance can be varied continuously from 500 μm down to several μm, which provides the unique possibility to generate a strong confinement for many complex fluids. A singular advantage of this setup is the possibility to directly probe the vorticity direction of the flow field with a microfocus X-ray beam and to probe the structural response of the fluid to combined shear and confinement in the vorticity plane. The sliding-plate setup operates over a wide range of shear rates of γ̇  = 10&lt;sup&gt;−3&lt;/sup&gt;–10&lt;sup&gt;3&lt;/sup&gt; s&lt;sup&gt;−1 &lt;/sup&gt;and strains in the range of 10&lt;sup&gt;−4&lt;/sup&gt;–10&lt;sup&gt;2&lt;/sup&gt;. The flexure-based bearing maintains the plate parallelism within 10&lt;sup&gt;−5&lt;/sup&gt; rad. The X-FMR requires very small sample volumes on the order of 10 μl. The applicability of the device is demonstrated here with limited examples of a nematic suspension of fd virus (rods), and a crystalline suspension containing sterically stabilized polystyrene-butylacrylate latex particles.</dcterms:abstract>
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Publikation: X-ray scattering in the vorticity direction and rheometry from confined fluids

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Publikation:
X-ray scattering in the vorticity direction and rheometry from confined fluids