| 215 - 228 |
Characterizing the yielding processes in pluronic-hyaluronic acid thermoreversible gelling systems using oscillatory rheology
Ramya KA, Kodavaty J, Dorishetty P, Setti M, Deshpande AP |
| 229 - 245 |
On the viscosity of adhesive hard sphere dispersions: Critical scaling and the role of rigid contacts
Wang G, Fiore AM, Swan JW |
| 247 - 262 |
Irreversible time-dependent rheological behavior of cement slurries: Constitutive model and experiments
Marchesini FH, Oliveira RM, Althoff H, Mendes PRD |
| 263 - 274 |
The use of informed isotropic constitutive equation to simulate anisotropic rheological behaviors in fiber suspensions
Tseng HC, Favaloro AJ |
| 275 - 283 |
Contact tribology also affects the slow flow behavior of granular emulsions
Workamp M, Dijksman JA |
| 285 - 290 |
The yield normal stress
de Cagny H, Fazilati M, Habibi M, Denn MM, Bonn D |
| 291 - 304 |
Rheological design of 3D printable all-inorganic inks using BiSbTe-based thermoelectric materials
Eom Y, Kim F, Yang SE, Son JS, Chae HG |
| 305 - 317 |
A simple method to analyze materials under quasilinear large amplitude oscillatory shear flow (QL-LAOS)
Leite RT, Mendes PRD, Thompson RL |
| 319 - 333 |
Polymer extrudate-swell: From monodisperse melts to polydispersity and flow-induced reduction in monomer friction
Robertson B, Thompson RL, McLeish TCB, Robinson I |
| 335 - 359 |
Does shear induced demixing resemble a thermodynamically driven instability?
Peterson JD, Fredrickson GH, Leal LG |
| 361 - 375 |
Review on tube model based constitutive equations for polydisperse linear and long-chain branched polymer melts
Narimissa E, Wagner MH |
