Journal of Rheology

Papers
(The H4-Index of Journal of Rheology is 17. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2021-12-01 to 2025-12-01.)
ArticleCitations
Influence of the thermal shrinkage-induced volume contraction on the yielding behavior of waxy oil42
Nonlinear rheological behavior of glass-forming colloidal suspensions under oscillatory shear: Experiment and relation to mode coupling theory predictions39
Two-point microrheology and diffusing wave spectroscopy33
Confined Brownian suspensions: Equilibrium diffusion, thermodynamics, and rheology33
The liquid-gas transition in granular matter: A question of effective friction?30
Blistering instability during capillary thinning of solutions of homo- and associative polymers30
Recovery of postconsumer mechanically recycled polymers27
Newtonian coalescence in colloidal and noncolloidal suspensions26
Microscopic activated dynamics theory of the shear rheology and stress overshoot in ultradense glass-forming fluids and colloidal suspensions26
Role of micellar entanglements on kinetics of shear banding flow formation26
The Mnemosyne number and the rheology of remembrance25
Tactile friction and rheological studies to objectify sensory properties of topical formulations22
Molecular rheology of nanoconfined oligomer melts22
Melt strain hardening of various high density polyethylenes21
Antithixotropic dynamics in attractive colloidal dispersions: A shear restructuring driven by elastic stresses20
A tube model for predicting the stress and dielectric relaxations of polydisperse linear polymers19
Fractal structures of PA6/POE blend nanocomposites and their dynamic properties19
Erratum: “The effect of instrument inertia on the initiation of oscillatory flow in stress controlled rheometry” [J. Rheol. 67, 1175 (2023)]17
Transient dynamics of soft particle glasses in startup shear flow. Part II: Memory and aging17
0.058104038238525