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Thermodynamic consistency in the structure-based integral equation coarse-grained method
Dinpajooh M, Guenza MG
Polymer, 117, 282, 2017 |
| 2 |
The oscillating drop method for measuring the deformation retardation time of viscoelastic liquids
Brenn G, Plohl G
Journal of Non-Newtonian Fluid Mechanics, 223, 88, 2015 |
| 3 |
Predicting the velocity distribution of Rushton turbine impeller in mixing of polymeric liquids using fuzzy neural network models
Aminian A, Jahangiri M
Korean Journal of Chemical Engineering, 31(5), 772, 2014 |
| 4 |
Flow of Non-Newtonian Fluids in Porous Media
Sochi T
Journal of Polymer Science Part B: Polymer Physics, 48(23), 2437, 2010 |
| 5 |
Prediction of thermodynamic properties of polymeric liquids using a new equation of state
Berenji AR, Goharshadi EK
Polymer, 47(13), 4726, 2006 |
| 6 |
Five decades of transport phenomena
Bird RB
AIChE Journal, 50(2), 273, 2004 |
| 7 |
Water blown free rise polyurethane foams
Niyogi D, Kumar R, Gandhi KS
Polymer Engineering and Science, 39(1), 199, 1999 |
| 8 |
Dynamics of dipole-inverted cis-polyisoprene chains in a matrix of long, entangling chains. 2. Effects of constraint release on the coherence of the subchain motion
Watanabe H, Matsumiya Y, Osaki K, Yao ML
Macromolecules, 31(21), 7538, 1998 |
| 9 |
Self-Consistent Integral-Equation Theory of Chain-Molecular Liquids .2. Improved Intermolecular Equations
Gan HH, Eu BC
Journal of Chemical Physics, 105(10), 4323, 1996 |
| 10 |
Rouse Dynamics of Block-Copolymers
Tang H
Macromolecules, 29(7), 2633, 1996 |
