Contribution Type

* denotes Singh as corresponding author, † denotes undergraduates, h denotes high school student

Research Areas

Dense Suspensions, Rheology, Granular Matter, Polymers, Network Science, Mesoscale, Friction

Work from Case Western — 2 total:

  • Hidden hierarchy in the rheology of dense suspension, A. Singh, MRS Communications 1-9 (2023) (Invited)

    Relevant research areas: Network Science, Rheology, Dense Suspensions

  • Scaling relations between viscosity and diffusivity in shear-thickening suspensions, A. Singh*, K. Saitoh, Soft Matter (2023) (Back cover of the issue)

    Relevant research areas: Mesoscale Rearrangement, Rheology, Dense Suspensions

Work before Case Western — 20 total:

  • Leveraging the polymer glass transition to access thermally-switchable shear jamming suspensions, C. Chen, M. v. Naald, A. Singh, G. L. Jackson, H. M. Jaeger, S. Rowan, J. J. de Pablo, ACS Central Science, 9, 4, 639–647 (2023)

    Relevant research areas: Polymer Physics, Rheology, Dense Suspensions

  • Structure and dynamics of force clusters and networks in shear thickening suspensions, M. Nabizadeh, A. Singh, S. Jamali, Physical Review Letter, 9, 4, 639–647 (2022) (Featured on the cover of issue)

    Relevant research areas: Network Science, Dense Suspensions

  • Shear thickening in dense suspension: A master-curve and “roll” of friction, A. Singh*, Science Talks, 100028 (2022) (Invited)

    Relevant research areas: Rheology, Friction, Dense Suspensions

  • Stress-activated Constraints in Dense Suspension Rheology, A. Singh*, G. L. Jackson, M.v. Naald, J. J. de Pablo, H. M.Jaeger, Physical Review Fluids, 7, 054302 (2022)

    Relevant research areas: Rheology, Friction, Dense Suspensions

  • Shear Stress Dependence of Force Networks in 3D Dense Suspensions, L. E. Edens, E. G. Alvarado, A. Singh, J. F. Morris, J. K. Schenter, J. Chun, A. E. Clark, Soft Matter, 32, 7476 (2021) (Featured on the back cover)

    Relevant research areas: Rheology, Network Science, Dense Suspensions

  • Shear thickening and jamming of dense suspensions: the “roll” of friction, A. Singh*, C. Ness, R. Seto, J. J. De Pablo, H. M. Jaeger, Physical Review Letters, 124 (24), 248005 (2020)

    Relevant research areas: Friction, Rheology, Dense Suspensions

  • Structure and dynamics of hydrodynamically interacting finite-size Brownian particles in spherical cavity: Spheres and cylinders, J. Li, X. Jiang, A. Singh, O. G. Heinonen, J. P. Hernandez, J. J. de Pablo, Journal of Chemical Physics, 152 (20) 204109 (2020)

    Relevant research areas: Confinement, Hydrodynamic Interactions, Brownian Motion, Dense Suspensions

  • Shape induced segregation and anomalous particle transport under spherical confinement, A. Singh, J. Li, X. Jiang, J. P. Hernandez, H. M. Jager, J. J. de Pablo, Physics of Fluids, 32 (5) 053307 (2020) (Featured article of the issue)

    Relevant research areas: Confinement, Dense Suspensions

  • Force network analysis in shear thickening suspensions, M. Gameiro, A. Singh, K. Mischaikow, L. Kondic, J. F. Morris, Physical Review Fluids, 5 (3), 034307 (2020)

    Relevant research areas: Rheology, Network Science, Dense Suspensions

  • Investigating the nature of discontinuous shear thickening: Beyond a mean-field description,  J. Thomas, A. Goyal, D. S. Bedi, A. Singh, E. del Gado, B. Chakraborty, Journal of Rheology, 64 (2) 329-341 (2020)

    Relevant research areas: Fluctuations, Dense Suspensions

  • Fluctuations at the onset of discontinuous shear thickening in a suspension, O. Sedes, A. Singh, J. F. Morris, Journal of Rheology, 64 (2) 309-319 (2020)

    Relevant research areas: Fluctuations, Dense Suspensions

  • Stress fluctuations and shear thickening in dense granular suspensions, Q. Xu, A. Singh, H. M. Jaeger, Journal of Rheology, 64 (2) 321-328 (2020)

    Relevant research areas: Fluctuations, Dense Suspensions

  • Shear jamming and fragility in dense suspensions, R. Seto, A. Singh, B. Chakraborty, M. M. Denn, J. F. Morris, Granular Matter, 21 (3) 1500-1511 (2019)

    Relevant research areas: Shear Jamming, Dense Suspensions

  • From yielding to jamming in cohesive frictional suspensions, A. Singh, S. Pednekar, J. Chun, M. M. Denn, J. F. Morris, Physical Review Letters, 122 (9) 098004 (2019)

    Relevant research areas: Constitutive Modeling, Cohesion, Dense Suspensions

  • Microscopic origin of frictional rheology in dense suspensions: correlations in force space, J. Thomas, K. Ramola, A. Singh, R. Mari, J. F. Morris, B. Chakraborty,  Physical Review Letters, 121 128002 (2018) (Featured article of the issue.)

    Relevant research areas: Network Science, Dense Suspensions

  • A constitutive model for simple shear of dense frictional suspensions, A. Singh*, R. Mari, M. M. Denn, J. F. Morris, Journal of Rheology, 62, 457 (2018)

    Featured article of the issue, JOR 2020 Publication award.

    Relevant research areas: Constitutive Modeling, Dense Suspensions

  • Microstructural description of shear-thickening suspensions, A. Singh*, J. F. Morris, M. M. Denn, EPJ Web of Conferences, 140, 09023 (2017)

    Relevant research areas: Microstructure, Dense Suspensions

  • Granular flow: from dilute to jammed state, H. Shi, D. Vescovi, A. Singh, S. Roy, V. Magnanimo, S. Luding, T. Weinhart, Granular Materials (invited book chapter) (2017)

    Relevant research areas: Rheology, Granular Matter

  • Micro-macro transition and simplified contact models for wet granular materials, S. Roy, A. Singh, S. Luding, T. Weinhart, Computational Particle Mechanics, 3, 449 (2016) 

    Relevant research areas: Rheology, Granular Matter

  • The role of gravity or pressure and contact stiffness in granular rheology, A. Singh*, V. Magnanimo, K. Saitoh, S. Luding, New Journal of Physics, 17 (2015)

    Relevant research areas: Granular Matter, Rheology

  • Effect of cohesion on shear banding in quasistatic granular materials, A. Singh*, V. Magnanimo, K. Saitoh, S. Luding, Physical Review E 90 (2), 022202 (2014)

    Relevant research areas: Granular Matter, Cohesion

  • Effect of friction on the force distribution in sheared granular materials, A. Singh*, V. Magnanimo, S. Luding, Proc. of NUMGE2014, 409-14 (2014)

    Relevant research areas: Granular Matter, Friction

  • Micro-macro and rheology in sheared granular matter, A. Singh (Ph.D. Thesis), Universiteit Twente

  • Effect of friction and cohesion on anisotropy in quasi-static granular materials under shear, A. Singh*, V. Magnanimo, S. Luding, AIP Conference Proceedings 1542 (1), 682-685 (2013)

    Relevant research areas: Granular Matter, Friction, Cohesion, Quasi-static

  • Perturbation theory & stability analysis, T Weinhart, A Singh, AR Thornton

    University of Twente