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Christopher Ness

Showing results (1-10 of 27) with videos related to

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Physical Review. E|February 13, 2016
Two-scale evolution during shear reversal in dense suspensionsChristopher Ness, Jin Sun
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|February 14, 2015
Flow regime transitions in dense non-Brownian suspensions: rheology, microstructural characterization, and constitutive modelingChristopher Ness, Jin Sun
Soft Matter|November 12, 2015
Shear thickening regimes of dense non-Brownian suspensionsChristopher Ness, Jin Sun
Granular Matter|January 28, 2020
Linking attractive interactions and confinement to the rheological response of suspended particles close to jammingMichael A Jones, Christopher Ness
Soft Matter|April 4, 2025
Absorbing-state transitions in particulate systems under spatially varying drivingBhanu Prasad Bhowmik, Christopher Ness
Physical Review Letters|February 10, 2025
Nonmonotonic Constitutive Curves and Shear Banding in Dry and Wet Granular FlowsChristopher Ness, Suzanne M Fielding
Physical Review Letters|March 14, 2020
Absorbing-State Transitions in Granular Materials Close to JammingChristopher Ness, Michael E Cates
Physical Review Letters|April 2, 2024
Scaling Description of Frictionless Dense Suspensions under Inhomogeneous FlowBhanu Prasad Bhowmik, Christopher Ness
Soft Matter|April 29, 2017
Oscillatory rheology of dense, athermal suspensions of nearly hard spheres below the jamming pointChristopher Ness, Zhongyang Xing, Erika Eiser
Science Advances|April 20, 2018
Shaken and stirred: Random organization reduces viscosity and dissipation in granular suspensionsChristopher Ness, Romain Mari, Michael E Cates
Pageof 3

Showing results (1-10 of 27) with videos related to

Sort By:
Pageof 3
Physical Review. E|February 13, 2016
Two-scale evolution during shear reversal in dense suspensionsChristopher Ness, Jin Sun
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|February 14, 2015
Flow regime transitions in dense non-Brownian suspensions: rheology, microstructural characterization, and constitutive modelingChristopher Ness, Jin Sun
Soft Matter|November 12, 2015
Shear thickening regimes of dense non-Brownian suspensionsChristopher Ness, Jin Sun
Granular Matter|January 28, 2020
Linking attractive interactions and confinement to the rheological response of suspended particles close to jammingMichael A Jones, Christopher Ness
Soft Matter|April 4, 2025
Absorbing-state transitions in particulate systems under spatially varying drivingBhanu Prasad Bhowmik, Christopher Ness
Physical Review Letters|February 10, 2025
Nonmonotonic Constitutive Curves and Shear Banding in Dry and Wet Granular FlowsChristopher Ness, Suzanne M Fielding
Physical Review Letters|March 14, 2020
Absorbing-State Transitions in Granular Materials Close to JammingChristopher Ness, Michael E Cates
Physical Review Letters|April 2, 2024
Scaling Description of Frictionless Dense Suspensions under Inhomogeneous FlowBhanu Prasad Bhowmik, Christopher Ness
Soft Matter|April 29, 2017
Oscillatory rheology of dense, athermal suspensions of nearly hard spheres below the jamming pointChristopher Ness, Zhongyang Xing, Erika Eiser
Science Advances|April 20, 2018
Shaken and stirred: Random organization reduces viscosity and dissipation in granular suspensionsChristopher Ness, Romain Mari, Michael E Cates
Pageof 3