Constraint-based Rheology of Sense Suspensions and Granular Materials I

FOCUS · T25 · ID: 46181

Presentations

  • ORAL · Invited

    Publication: Yu-FanLee, YiminLuo, TianyiBai, C. Velez, S.C. Brown, and N.J. Wagner, "Microstructure and rheology of shear-thickening colloidal suspensions with varying interparticle friction: Comparison of experiment with theory and simulation models," Physics of Fluids 33, 033316 (2021).
    Lee, Y.F., Y.M. Luo, S.C. Brown, and N.J. Wagner, "Experimental test of a frictional contact model for shear thickening in concentrated colloidal suspensions," Journal of Rheology 64, 267-282 (2020).

    Presenters

    • Norman J Wagner

      • University of Delaware

    Authors

    • Norman J Wagner

      • University of Delaware

    • Yu-Fan Lee

      • University of Delaware

    • Scott C Brown

      • Chemours

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  • ORAL

    Publication: • A. Goyal, S. Jones, E. Del Gado, N. Martys. Co-existence of ordered domains in sheared dense suspensions. In preparation.
    • A. Goyal, S. Jones, E. Del Gado, N. Martys. Friction-induced changes in microstructure and stress localization in dense suspensions. In preparation

    Presenters

    • Abhay Goyal

      • NIST
      • Georgetown University

    Authors

    • Abhay Goyal

      • NIST
      • Georgetown University

    • Emanuela del Gado

      • Georgetown University

    • Scott Jones

      • NIST

    • Nicos Martys

      • NIST

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  • ORAL

    Presenters

    • Itai Cohen

      • Cornell University
      • Cornell University, Physics, Ithaca, NY
      • Physics, Cornell University

    Authors

    • Meera Ramaswamy

      • Cornell University

    • Itay Griniasty

      • Cornell University

    • Danilo B Liarte

      • Cornell University

    • Emanuela del Gado

      • Georgetown University

    • Eleni Katifori

      • University of Pennsylvania

    • James P Sethna

      • Cornell University

    • Bulbul Chakraborty

      • Brandeis University

    • Itai Cohen

      • Cornell University
      • Cornell University, Physics, Ithaca, NY
      • Physics, Cornell University

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  • ORAL

    Publication: arXiv preprint arXiv:2107.13338 (2021)

    Presenters

    • Meera Ramaswamy

      • Cornell University

    Authors

    • Meera Ramaswamy

      • Cornell University

    • Itay Griniasty

      • Cornell University

    • Danilo B Liarte

      • Cornell University

    • Abhishek Shetty

      • Anton Paar, USA

    • Eleni Katifori

      • University of Pennsylvania

    • Emanuela del Gado

      • Georgetown University

    • James P Sethna

      • Cornell University

    • Bulbul Chakraborty

      • Brandeis University

    • Itai Cohen

      • Cornell University
      • Cornell University, Physics, Ithaca, NY
      • Physics, Cornell University

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  • ORAL

    Publication: Chen C., van de Naald M., Singh A., Dolinski N.D., Jackson G. L., Jureller J., Jaeger H. M., Rowan S. J., de Pablo J. J. Leveraging polymer glass transition to access thermally-switchable shear jamming suspensions (In preparation)

    Presenters

    • Chuqiao Chen

      • University of Chicago

    Authors

    • Chuqiao Chen

      • University of Chicago

    • Michael van de Naald

      • University of Chicago

    • Abhinendra Singh

      • University of Chicago

    • Neil D Dolinski

      • The University of Chicago
      • University of Chicago

    • Grayson L Jackson

      • University of Chicago

    • Justin Jureller

      • University of Chicago

    • Heinrich M Jaeger

      • University of Chicago

    • Stuart J Rowan

      • University of Chicago

    • Juan De Pablo

      • University of Chicago
      • Pritzker School of Molecular Engineering, University of Chicago

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  • ORAL

    Publication: [1] Brassard, M. A., Causley, N., Krizou, N., Dijksman, J. A., & Clark, A. H. (2021). Viscous-like forces control the impact response of shear-thickening dense suspensions. Journal of Fluid Mechanics, 923.
    [2] Strader, J., Causley, N., Dijksman, J. A., & Clark, A. H. (2021). Darcy-Reynolds forces during intrusion into granular-fluid beds. arXiv preprint arXiv:2107.12584.

    Presenters

    • Abe Clark

      • The Naval Postgraduate School

    Authors

    • Abe Clark

      • The Naval Postgraduate School

    • Joshua A Dijksman

      • Wageningen University

    • Marc Brassard

      • The Naval Postgraduate School

    • Neil Causley

      • The Naval Postgraduate School

    • Joshua Strader

      • The Naval Postgraduate School

    • Nasser F Krizou

      • The Naval Postgraduate School

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  • ORAL

    Publication: Barcelos et al., Mesoscale Modeling of Particle-Wall Interactions in Confined Flows of Particulate Systems, Phys. Fluids, submitted.
    Barcelos et al., Microstructure and Rheology of Semi-Dense and Dense Suspensions in Confined Flows, Soft Matter, in preparation.

    Presenters

    • Joao M Maia

      • Case Western Reserve University

    Authors

    • Joao M Maia

      • Case Western Reserve University

    • Shaghayegh Khani

      • Case Western Reserve University

    • Erika Barcelos

      • Case Western Reserve University

    • Monica Naccache

      • Pontifical Catholic University-Rio

    • Arman Boromand

      • Yale University

    • Fellipe Carvalho

      • COPPE, Federal University of Rio de Janeiro

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  • ORAL

    Publication: "Elastic Response of Wire Frame Glasses I: Two dimensional model" J. Chem. Phys. 154, 244904 (2021) https://doi.org/10.1063/5.0046524
    "Elastic Response of Wire Frame Glasses II: Three dimensional systems" J. Chem. Phys. 154, 244905 (2021) https://doi.org/10.1063/5.0046525

    Presenters

    • David A King

      • University of Pennsylvania

    Authors

    • David A King

      • University of Pennsylvania

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  • ORAL

    Publication: Gago, Paula A., and Boettcher, Stefan. "Universal features of annealing and aging in compaction of granular piles." PNAS 117.52 (2020): 33072-33076. (https://doi.org/10.1073/pnas.2012757117)

    Gago, Paula A., and Boettcher, Stefan. "Density fluctuations in granular piles traversing the glass transition: A grain-scale characterization of the transition via the internal energy." (https://arxiv.org/abs/2107.07764)

    Presenters

    • Paula A Gago

      • Department of Earth Science and Engineering, Imperial College, London

    Authors

    • Stefan Boettcher

      • Emory University

    • Paula A Gago

      • Department of Earth Science and Engineering, Imperial College, London

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  • ORAL

    Presenters

    • Pablo E Illing

      • Emory University

    Authors

    • Pablo E Illing

      • Emory University

    • Jean-Christophe Ono-dit-Biot

      • McMaster Univ

    • Kari Dalnoki-Veress

      • McMaster Univ

    • Eric R Weeks

      • Emory University

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