Christopher Ness
Christopher Ness
Reader and Royal Academy of Engineering Research Fellow, University of Edinburgh
Verified email at - Homepage
Cited by
Cited by
Hydrodynamic and contact contributions to continuous shear thickening in colloidal suspensions
NYC Lin, BM Guy, M Hermes, C Ness, J Sun, WCK Poon, I Cohen
Physical Review Letters 115 (22), 228304, 2015
Shear thickening and jamming of dense suspensions: the roll of friction
A Singh, C Ness, R Seto, JJ de Pablo, HM Jaeger
Physical Review Letters 124 (24), 248005, 2020
Tunable shear thickening in suspensions
NYC Lin, C Ness, ME Cates, J Sun, I Cohen
Proceedings of the National Academy of Sciences 113 (39), 10774-10778, 2016
Shear thickening regimes of dense non-Brownian suspensions
C Ness, J Sun
Soft Matter 12 (3), 914-924, 2016
Flow regime transitions in dense non-Brownian suspensions: Rheology, microstructural characterization, and constitutive modeling
C Ness, J Sun
Physical Review E 91 (1), 012201, 2015
Rheology of dense granular suspensions under extensional flow
O Cheal, C Ness
Journal of Rheology 62 (2), 501-512, 2018
Shaken and stirred: Random organization reduces viscosity and dissipation in granular suspensions
C Ness, R Mari, ME Cates
Science Advances 4 (3), eaar3296, 2018
An improved methodology for determining threshold sooting indices from smoke point lamps
RJ Watson, ML Botero, CJ Ness, NM Morgan, M Kraft
Fuel 111, 120-130, 2013
Nonequilibrium continuous phase transition in colloidal gelation with short-range attraction
J Rouwhorst, C Ness, S Stoyanov, A Zaccone, P Schall
Nature communications 11 (1), 3558, 2020
Parameter-free predictions of the viscoelastic response of glassy polymers from nonaffine lattice dynamics
VV Palyulin, C Ness, R Milkus, RM Elder, T Sirk, A Zaccone
Soft Matter 14, 8475-8482, 2018
The physics of dense suspensions
C Ness, R Seto, R Mari
Annual Review of Condensed Matter Physics 13, 97-117, 2022
Testing the Wyart–Cates model for non-Brownian shear thickening using bidisperse suspensions
BM Guy, C Ness, M Hermes, LJ Sawiak, J Sun, WCK Poon
Soft matter 16 (1), 229-237, 2020
Two-scale evolution during shear reversal in dense suspensions
C Ness, J Sun
Physical Review E 93 (1), 012604, 2016
How Confinement-Induced Structures Alter the Contribution of Hydrodynamic and Short-Ranged Repulsion Forces to the Viscosity of Colloidal Suspensions
M Ramaswamy, NYC Lin, BD Leahy, C Ness, AM Fiore, JW Swan, ...
Physical Review X 7 (4), 041005, 2017
Absorbing-state transitions in granular materials close to jamming
C Ness, ME Cates
Physical Review Letters 124 (8), 088004, 2020
Constitutive model for time-dependent flows of shear-thickening suspensions
JJJ Gillissen, C Ness, JD Peterson, HJ Wilson, ME Cates
Physical Review Letters 123 (21), 214504, 2019
On the role of flexibility in linker-mediated DNA hydrogels
ID Stoev, T Cao, A Caciagli, J Yu, C Ness, R Liu, R Ghosh, T O’Neill, D Liu, ...
Soft Matter 16, 990-1001, 2020
Interpretation of the vibrational spectra of glassy polymers using coarse-grained simulations
R Milkus, C Ness, VV Palyulin, J Weber, A Lapkin, A Zaccone
Macromolecules 51 (4), 1559-1572, 2018
A bootstrap mechanism for non-colloidal suspension viscosity
RI Tanner, C Ness, A Mahmud, S Dai, J Moon
Rheologica Acta 57, 635-643, 2018
Linking particle properties to dense suspension extrusion flow characteristics using discrete element simulations
C Ness, JY Ooi, J Sun, M Marigo, P McGuire, H Xu, H Stitt
AIChE Journal 63 (7), 3069-3082, 2017
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