| 481 - 492 |
Entrance effects and high shear rate rheology of shear-banding wormlike micelle fluids in a microcapillary flow
Salipante PF, Dharmaraj VL, Hudson SD |
| 493 - 504 |
A revisitation of generalized Newtonian fluids
Tseng HC |
| 505 - 515 |
A frequency-dependent effective medium model for the rheology of crystallizing polymers
Kotula A |
| 517 - 527 |
On the use of orientation tensors to represent prepreg platelet orientation state and variability
Favaloro AJ, Sommer DE |
| 529 - 543 |
Molecular simulation of nanocolloid rheology: Viscosity, viscoelasticity, and time-concentration superposition
Devarajan DS, Nourian P, McKenna GB, Khare R |
| 545 - 550 |
Stress-controlled oscillatory flow initiated at time zero: A linear viscoelastic analysis
Hassager O |
| 551 - 579 |
Medium amplitude parallel superposition (MAPS) rheology. Part 1: Mathematical framework and theoretical examples
Lennon KR, McKinley GH, Swan JW |
| 581 - 600 |
Nonlinear rheology and dynamics of supramolecular polymer networks formed by associative telechelic chains under shear and extensional flows
Amin D, Wang ZW |
| 601 - 614 |
Scission of flexible polymers in contraction flow: Predicting the effects of multiple passages
Garrepally S, Jouenne S, Olmsted PD, Lequeux F |
| 615 - 624 |
Rheological material functions at yielding
Thompson RL, Mendes PRD |
| 625 - 635 |
Questioning a fundamental assumption of rheology: Observation of noninteger power expansions
Natalia I, Ewoldt RH, Koos E |
| 637 - 642 |
Influence of particle dispersion on the viscosity change in highly-concentrated cement suspensions: An experimental correlation
Kim JH, Yim HJ, Choi BI, Shin TY, Shah SP |
| 643 - 662 |
Improved rheometry of yield stress fluids using bespoke fractal 3D printed vanes
Owens CE, Hart AJ, McKinley GH |
| 663 - 672 |
Microstructural characterization of a star-linear polymer blend under shear flow by using rheo-SANS
Andriano LT, Ruocco N, Peterson JD, Olds D, Helgeson ME, Ntetsikas K, Hadjichristidis N, Costanzo S, Vlassopoulos D, Hjelm RP, Leal LG |
| 673 - 707 |
Evaluating predictability of various constitutive equations for MAOS behavior of entangled polymer solutions
Song HY, Kong HJ, Kim SY, Hyun K |
| 709 - 722 |
REPTATE rheology software: Toolkit for the analysis of theories and experiments
Boudara VAH, Read DJ, Ramirez J |
| 723 - 738 |
Elastoviscoplastic rheology and aging in a simplified soft glassy constitutive model
Fielding SM |
| 739 - 750 |
Evaluating the exit pressure method for measurements of normal stress difference at high shear rates
Tang DH, Marchesini FH, Cardon L, D'hooge DR |
| 751 - 774 |
Influence of hydrostatic pressure on rheological properties of polymer melts-A review
Munstedt H |
