Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Windhab, E. J.
Eischen, J.-C.
and
Braun, P.
1998.
Progress and Trends in Rheology V.
p.
609.
Berli, Claudio L. A.
and
Quemada, Daniel
2000.
Rheological Modeling of Microgel Suspensions Involving Solid−Liquid Transition.
Langmuir,
Vol. 16,
Issue. 21,
p.
7968.
Floury, Juliane
Desrumaux, Anne
and
Lardières, Jérémie
2000.
Effect of high-pressure homogenization on droplet size distributions and rheological properties of model oil-in-water emulsions.
Innovative Food Science & Emerging Technologies,
Vol. 1,
Issue. 2,
p.
127.
Berli, Claudio L.A.
Quemada, Daniel
and
Parker, Alan
2002.
Modelling the viscosity of depletion flocculated emulsions.
Colloids and Surfaces A: Physicochemical and Engineering Aspects,
Vol. 203,
Issue. 1-3,
p.
11.
Quemada, Daniel
and
Berli, Claudio
2002.
Energy of interaction in colloids and its implications in rheological modeling.
Advances in Colloid and Interface Science,
Vol. 98,
Issue. 1,
p.
51.
Baudonnet, L.
Pere, D.
Michaud, P.
Grossiord, J.-L.
and
Rodriguez, F.
2002.
Effect of Dispersion Stirring Speed on the Particle Size Distribution and Rheological Properties of Carbomer Dispersions and Gels.
Journal of Dispersion Science and Technology,
Vol. 23,
Issue. 4,
p.
499.
Cardoso, A.V.
and
Camargos, A.O.
2002.
Geometrical Aspects During Formation of Compact Aggregates of Red Blood Cells.
Materials Research,
Vol. 5,
Issue. 3,
p.
263.
Mercer, T.
Bissell, P.R.
and
Gilson, R.G.
2002.
Measurement of hindered settling in magnetic dispersions.
IEEE Transactions on Magnetics,
Vol. 38,
Issue. 5,
p.
3219.
Floury, Juliane
Desrumaux, Anne
Axelos, Monique A.V
and
Legrand, Jack
2003.
Effect of high pressure homogenisation on methylcellulose as food emulsifier.
Journal of Food Engineering,
Vol. 58,
Issue. 3,
p.
227.
Barthelmes, G
Pratsinis, S.E
and
Buggisch, H
2003.
Particle size distributions and viscosity of suspensions undergoing shear-induced coagulation and fragmentation.
Chemical Engineering Science,
Vol. 58,
Issue. 13,
p.
2893.
Baudonnet, L.
Grossiord, J.‐L.
and
Rodriguez, F.
2004.
Effect of Dispersion Stirring Speed on the Particle Size Distribution and Rheological Properties of Three Carbomers.
Journal of Dispersion Science and Technology,
Vol. 25,
Issue. 2,
p.
183.
Adams, S.
Frith, W. J.
and
Stokes, J. R.
2004.
Influence of particle modulus on the rheological properties of agar microgel suspensions.
Journal of Rheology,
Vol. 48,
Issue. 6,
p.
1195.
Haider, L.
Snabre, P.
and
Boynard, M.
2004.
Rheology and Ultrasound Scattering from Aggregated Red Cell Suspensions in Shear Flow.
Biophysical Journal,
Vol. 87,
Issue. 4,
p.
2322.
Gradeck, M.
Fagla, B.F.Z.
Baravian, C.
and
Lebouché, M.
2005.
Experimental thermomechanic study of Newtonian and non-Newtonian suspension flows.
International Journal of Heat and Mass Transfer,
Vol. 48,
Issue. 16,
p.
3469.
Dietzel, Mathias
and
Poulikakos, Dimos
2005.
Laser-induced motion in nanoparticle suspension droplets on a surface.
Physics of Fluids,
Vol. 17,
Issue. 10,
Shumiya, H.
Kato, K.
and
Okubo, H.
2005.
Fabrication and prediction techniques for FGM (functionally graded materials) application to solid insulators.
p.
673.
Costa, Antonio
2005.
Viscosity of high crystal content melts: Dependence on solid fraction.
Geophysical Research Letters,
Vol. 32,
Issue. 22,
Kaneda, Isamu
and
Sogabe, Atsushi
2005.
Rheological properties of water swellable microgel polymerized in a confined space.
Colloids and Surfaces A: Physicochemical and Engineering Aspects,
Vol. 270-271,
Issue. ,
p.
163.
Kaneda, Isamu
2006.
The Yield Stress of a Soft and Water Swellable Microgel Aqueous Suspension in Semi-Dilute Regime.
Nihon Reoroji Gakkaishi,
Vol. 34,
Issue. 2,
p.
77.
Song, Young S.
2006.
Effect of surface treatment for carbon nanotubes on morphological and rheological properties of poly(ethylene oxide) nanocomposites.
Polymer Engineering & Science,
Vol. 46,
Issue. 10,
p.
1350.