OOIR: Observatory of International Research

Papers

(The H4-Index of Rheologica Acta is 14. 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 2021-04-01 to 2025-04-01.)

Article	Citations
Data-driven selection of constitutive models via rheology-informed neural networks (RhINNs)	36
Compatibility of the generalized BMP model and the two-fluid Langevin formulations	31
Role of plasticity in the universal scaling of shear-thickening dense suspensions	27
Numerical investigation of rheological behaviors of polystyrene melts in different contraction dies based on the Rolie-Poly model	24
Instrument stiffness artifacts: avoiding bad data with operational limit lines of $$G_{\max }$$ and $$E_{\max }$$	22
Two-tiered semi-empirical model for the viscosity of crystal-bearing magmas	21
Effects of non-ionic surfactant on the formation of pellicles by Pseudomonas aeruginosa	20
Non-linear dilational rheology of liquid-liquid interfaces stabilized by dipeptide hydrogels	17
From Alveograph test to extensional behavior of wheat flour dough	17
Rheological and creep and recovery behavior of carbonyl iron water-based magnetorheological gel using laponite as an additive and oleic acid as a surfactant	16
Coupling slip and thixotropy to model the transient rheological behaviour of kaolinite suspensions	16
Bidisperse magnetorheological fluids utilizing composite polypyrrole nanotubes/magnetite nanoparticles and carbonyl iron microspheres	16
Elastic and shear-thinning effects in contraction flows: a comparison	15
Influence of various pretreatments on molecular and rheological properties of a linear and a long-chain branched polypropylene	15
Analysis of startup shear flow data of linear polystyrene blends: is shear stress undershoot caused by transient shear banding?	14
A small-volume microcapillary rheometer	14
Modelling elongational viscosity overshoot and brittle fracture of low-density polyethylene melts	14