| 489 - 516 |
Soft colloidal matter: A phenomenological comparison of the aging and mechanical responses with those of molecular glasses
McKenna GB, Narita T, Lequeux F |
| 517 - 538 |
Anisotropy of nonaqueous layered silicate suspensions subjected to shear flow
Mobuchon C, Carreau PJ, Heuzey MC, Reddy NK, Vermant J |
| 539 - 545 |
Note: Method for overcoming ductile failure in Munstedt-type extensional rheometers
McGrady CD, Baird DG |
| 547 - 573 |
The rheology and modeling of chemically treated carbon nanotubes suspensions
Ma AWK, Chinesta F, Mackley MR |
| 575 - 588 |
Directed self-assembly of suspensions by large amplitude oscillatory shear flow
McMullan JM, Wagner NJ |
| 589 - 615 |
Dynamic defect morphology and hydrodynamics of sheared nematic polymers in two space dimensions
Yang XF, Forest MG, Mullins W, Wang Q |
| 617 - 629 |
Universal scaling behavior in startup shear of entangled linear polymer melts
Boukany PE, Wang SQ, Wang XR |
| 631 - 650 |
Rheological behavior of fiber-filled model suspensions: Effect of fiber flexibility
Keshtkar M, Heuzey MC, Carreau PJ |
| 651 - 662 |
The effect of hydrophobic and hydrophilic fumed silica on the rheology of magnetorheological suspensions
Alves S, Alcantara MR, Neto AMF |
| 663 - 683 |
Passive breakup of viscoelastic droplets and filament self-thinning at a microfluidic T-junction
Christopher GF, Anna SL |
| 685 - 705 |
Using transient shear rheology to determine material parameters in fiber suspension theory
Eberle APR, Baird DG, Wapperom P, Velez-Garcia GM |
| 707 - 726 |
Viscoelasticity and shear flow of concentrated, noncrystallizing colloidal suspensions: Comparison with mode-coupling theory
Siebenburger M, Fuchs M, Winter H, Ballauff M |
| 727 - 756 |
Rheology and spatially resolved structure of cetyltrimethylammonium bromide wormlike micelles through the shear banding transition
Helgeson ME, Vasquez PA, Kaler EW, Wagner NJ |
