The Society of Rheology: Journal of Rheology Publication Award Recipients

S. G. Hatzikiriakos and J. M. Dealy (1994): McGill University
“Wall slip of molten high density polyethylenes. II. Capillary rheometer studies,” J. Rheol., 36(4), 703-741 (1992).
“Role of slip and fracture in the oscillating flow of HDPE in a capillary,” J. Rheol., 36(5), 845-884 (1992).

T. Annable, R. Buscall, R. Ettelaie, and D. Whittlestone (1995): ICI Corporate Colloid Science Group, UK
“The rheology of solutions of associating polymers: Comparison of experimental behavior with transient network theory,” J. Rheol., 37(4), 695-726 (1993).

L. B. Chen^†, B. J. Ackerson^‡, and C. F. Zukoski^† (1996): ^†University of Illinois and ^‡Oklahoma State University
“Rheological consequences of microstructural transitions in colloidal crystals,” J. Rheol., 38(2), 193-216 (1994).

I. Vinckier, P. Moldenaers, and J. Mewis (1997): K.U. Leuven, Leuven, Belgium
“Relationship between rheology and morphology of model blends in steady shear,” J. Rheol., 40(4), 613 (1996).

M. J. MacDonald and S. J. Muller (1998): University of California, Berkeley
“Experimental study of shear-induced migration of polymers in dilute solutions,” J. Rheol., 40(2), 259-283 (1996).

T. C .B. McLeish^† and R. G. Larson^‡ (1999): ^†University of Leeds, Leeds, UK and ^‡University of Michigan
“Molecular constitutive equations for a class of branched polymers: The pom-pom polymer,” J. Rheol., 42(1), 81-110 (1998).

D. J. Pine, Y. T. Hu, P. Boltenhagen, and E. Matthys (2000): University of California, Santa Barbara
“Shear thickening in low-concentration solutions of worm-like micelles I: Direct visualization of transient behavior and phase transitions,” J. Rheol., 42(5), 1185-1208 (1998).
“Shear-thickening In low-concentration solutions of worm-like micelles II: Slip, fracture, and stability of the shear-induced phase,” J. Rheol., 42(5), 1209-1226 (1998).

G. Hay, K. M. Awati, and Y. Park, and M. E. Mackay (2001): The University of Queensland, Queensland, Australia
“Pressure and temperature effects in slit rheometry,” J. Rheol., 43(5), 1099-1116 (1999).

T. Thiele^†, J.-F. Berret^†, S. Müller^‡, and C. Schmidt^‡(2002): ^†Universite de Montpellier II, France and ^‡Universitat Freiburg, Germany
“Rheology and NMR measurements under shear of sodium dodecyl sulfonate/decanol/water nematics,” J. Rheol., 45(1), 29-48 (2001).

K. Krishnan^a), B. Chapman^a), F. S. Bates^a), T. P. Lodge^a), K. Almdal^b), and W. R. Burghardt^c) (2003): ^a)University of Minnesota, ^b)Risø National Laboratory, and ^c)Northwestern University
“Effects of shear flow on a polymeric bicontinuous microemulsion: Equilibrium and steady state behavior,” J. Rheol., 46(2), 529-554 (2002)

Rui Zhao and Christopher W. Macosko (2004): University of Minnesota
“Slip at polymer-polymer interfaces: Rheological measurements on coextruded multilayers,” J. Rheol., 46(1), 145-167 (2002)

Steven P. Meeker^a), Roger T. Bonnecaze^b), and Michel Cloitre^a) (2005): ^a)ESPCI and ^b)University of Texas at Austin
“Slip and flow in pastes of soft particles: Direct observation and rheology,” J. Rheol., 48(6), 1295-1320 (2004)

M. W. Collis¹, A. K. Lele¹, M. R. Mackley¹, R. S. Graham², D. J. Groves², A. E. Likhtman², T. M. Nicholson², O. G. Harlen², T. C. B. McLeish², L. R. Hutchings³, C. M. Fernyhough⁴, and R. N. Young⁴ (2006): ¹University of Cambridge, ²University ofLeeds, ³University of Durham, and ⁴University of Sheffield
“Constriction flows of monodisperse linear entangled polymers: Multiscale modeling and flow visualization,” J. Rheol., 49(2), 501-522 (2005)

C. Clasen¹, J. P. Plog¹, W.-M. Kulicke¹, M. Owens², C. Macosko², L. E. Scriven², M. Verani³, and G. H. McKinley³ (2007): ¹University of Hamburg, ²University of Minnesota, and ³MassachusettsInstitute of Technology
“How dilute are dilute solutions in extensional flows?” J. Rheol., 50(6), 849-881 (2006)

Alexander Meyer, Andrew Marshall, Brian G. Bush, and Eric M. Furst (2008): University of Delaware
“Lasertweezer microrheology of a colloidal suspension” J. Rheol., 50(1), 77-92 (2006)

Sven Reynaert¹, Carlton F. Brooks², Paula Moldenaers¹, Jan Vermant¹, and Gerald G. Fuller³ (2009): ¹K. U. Leuven, ²Sandia National Laboratories, ³Stanford Univeristy
“Analysis of the magnetic rod interfacial stress rheometer” J. Rheol., 52(1), 261-285 (2008)

Matthias Fuchs¹ and Michael E. Cates² (2010): ¹Universität Konstanz (Germany), ²University of Edinburgh (UK)
“A mode coupling theory for Brownian particles in homogeneous steady shear flow” J. Rheol., 53(4), 957-1000 (2009)

E. van Ruymbeke¹, E. B. Muliawan², S. G. Hatzikiriakos², T. Watanabe³, A. Hirao³, and D. Vlassopoulos⁴ (2011): ¹FORTH (Greece) and Université Catholique de Louvain (Belgium), ²University of British Columbia (Canada), ³Tokyo Institute of Technology (Japan), ⁴FORTH (Greece) and University of Crete (Greece)
“Viscoelasticity and extensional rheology of model Cayley-tree polymers of different generations” J. Rheol. 54(3), 643-662 (2010)