| 821 - 838 |
A critical gel fluid with high extensibility: The rheology of chewing gum
Martinetti L, Mannion AM, Voje WE, Xie RX, Ewoldt RH, Morgret LD, Bates FS, Macosko CW |
| 839 - 867 |
A spring model for suspended particles in dissipative particle dynamics
Phan-Thien N, Mai-Duy N, Khoo BC |
| 869 - 890 |
High strain extensional rheometry of polymer melts: Revisiting and improving the Meissner design
Andrade RJ, Harris P, Maia JM |
| 891 - 910 |
The general low-frequency prediction for asymptotically nonlinear material functions in oscillatory shear
Bharadwaj NA, Ewoldt RH |
| 911 - 947 |
Stress-gradient induced migration of polymers in corrugated channels
Tsouka S, Dimakopoulos Y, Mavrantzas V, Tsamopoulos J |
| 949 - 967 |
Material properties of the shear-thickened state in concentrated near hard-sphere colloidal dispersions
Cwalina CD, Wagner NJ |
| 969 - 997 |
Large amplitude oscillatory shear and Fourier transform rheology analysis of branched polymer melts
Hoyle DM, Auhl D, Harlen OG, Barroso VC, Wilhelm M, McLeish TCB |
| 999 - 1038 |
Scaling analysis and mathematical theory of the interfacial stress rheometer
Fitzgibbon S, Shaqfeh ESG, Fuller GG, Walker TW |
| 1039 - 1058 |
Dissipative particle dynamics simulation of dilute polymer solutions-Inertial effects and hydrodynamic interactions
Zhao TY, Wang XG, Jiang L, Larson RG |
| 1059 - 1069 |
Letter to the Editor: Sufficiently entangled polymers do show shear strain localization at high enough Weissenberg numbers
Wang SQ, Liu GX, Cheng SW, Boukany PE, Wang YY, Li X |
| 1071 - 1082 |
Response to: Sufficiently entangled polymers do show shear strain localization at high enough Weissenberg numbers"
Li YF, Hu M, McKenna GB, Dimitriou CJ, McKinley GH, Mick RM, Venerus DC, Archer LA |
| 1083 - 1083 |
Convective constraint release (CCR) revisited (vol 58, pg 89, 2014)
Ianniruberto G, Marrucci G |
