1 |
Pipe flow of sphere suspensions having a power-law-dependent fluid matrix Martys NS, George WL, Murphy RP, Weigandt KM Journal of Rheology, 64(2), 445, 2020 |
2 |
Scaling laws for the flow of generalized Newtonian suspensions Liard M, Martys NS, George WL, Lootens D, Hebraud P Journal of Rheology, 58(6), 1993, 2014 |
3 |
A numerical study of the flow of Bingham-like fluids in two-dimensional vane and cylinder rheometers using a smoothed particle hydrodynamics (SPH) based method Zhu HN, Martys NS, Ferraris C, De Kee D Journal of Non-Newtonian Fluid Mechanics, 165(7-8), 362, 2010 |
4 |
A smoothed particle hydrodynamics-based fluid model with a spatially dependent viscosity: application to flow of a suspension with a non-Newtonian fluid matrix Martys NS, George WL, Chun BW, Lootens D Rheologica Acta, 49(10), 1059, 2010 |
5 |
A comparison of viscosity-concentration relationships for emulsions Bullard JW, Pauli AT, Garboczi EJ, Martys NS Journal of Colloid and Interface Science, 330(1), 186, 2009 |
6 |
Study of a dissipative particle dynamics based approach for modeling suspensions Martys NS Journal of Rheology, 49(2), 401, 2005 |
7 |
Suppression of capillary instability of a polymeric thread via parallel plate confinement Son Y, Martys NS, Hagedorn JG, Migler KB Macromolecules, 36(15), 5825, 2003 |
8 |
HYDRAULIC RADIUS AND TRANSPORT IN RECONSTRUCTED MODEL 3-DIMENSIONAL POROUS-MEDIA BENTZ DP, MARTYS NS Transport in Porous Media, 17(3), 221, 1994 |