Journal of Non-Newtonian Fluid Mechanics

Journal of Non-Newtonian Fluid Mechanics
Title	Journal of Non-Newtonian Fluid Mechanics
Discipline	Rheology
Language	English
Publisher	Elsevier
Country	Netherlands
Frequency	Monthly
History	1976–present
Issn	0377-0257

Contents

Journal of Non-Newtonian Fluid Mechanics is a peer-reviewed scientific periodical reporting original research on the behavior of complex fluids and soft matter under flow. It serves as a central venue for authors from institutions such as Massachusetts Institute of Technology, Stanford University, University of Cambridge, ETH Zurich, and Imperial College London to publish theoretical, experimental, and computational studies. The journal connects work relevant to laboratories at Max Planck Society institutes, industrial research groups at General Electric, Shell plc, and national laboratories like Argonne National Laboratory and Lawrence Livermore National Laboratory.

History

The journal was established in 1976 during a period of rapid growth in rheological research driven by advances at organizations such as National Aeronautics and Space Administration, European Space Agency, and universities including California Institute of Technology and University of California, Berkeley. Early editorial leadership included scholars affiliated with University of Oxford, Princeton University, and University of Tokyo. Over decades it chronicled developments linked to conferences like the International Congress on Rheology and collaborations involving the Royal Society, American Physical Society, Royal Society of Chemistry, and the Deutsche Forschungsgemeinschaft. The publisher, Elsevier, expanded its global distribution networks to libraries at the British Library, Bibliothèque nationale de France, and the Library of Congress.

The journal covers constitutive modeling, viscoelasticity, viscoplasticity, and microstructural dynamics pertinent to industries represented by Procter & Gamble, Dow Chemical Company, BASF SE, and 3M. Typical topics link to mathematical and physical frameworks developed in association with departments at University of Pennsylvania, Yale University, Columbia University, and University of Chicago. Articles address suspensions studied in collaborations with National Institute of Standards and Technology, polymers researched alongside teams at Baylor College of Medicine and University of Minnesota, and complex interfaces investigated by groups at California Institute of Technology and University of Oxford. Computational advances cited often originate from research centers such as Sandia National Laboratories, IBM Research, and the Los Alamos National Laboratory.

The journal is abstracted and indexed in major services linked to institutions like Clarivate Analytics (Web of Science), Elsevier Research Intelligence (Scopus), and databases used by libraries at Harvard University, University of Michigan, University of Toronto, and National University of Singapore. Its metadata are harvested by aggregation platforms employed by JSTOR, ProQuest, and national consortia in collaboration with the European Research Council and the Australian Research Council.

Editorial governance has drawn editors from Cornell University, Technische Universität München, Seoul National University, and Peking University. The peer-review process follows standards advocated by organizations such as Committee on Publication Ethics and professional societies including Society of Rheology and International Union of Rheology. Reviewers are typically researchers affiliated with centers like University of Illinois Urbana-Champaign, University of Sydney, McGill University, and University of British Columbia.

The journal's impact is recognized by citations in works from researchers at National Institutes of Health, European Molecular Biology Laboratory, Tokyo Institute of Technology, and policy-influencing reports from Organisation for Economic Co-operation and Development. It has been discussed at symposia hosted by Royal Academy of Engineering, Chinese Academy of Sciences, and Indian Institute of Science. Academic assessment metrics referenced by institutions such as University College London and funding agencies like National Science Foundation often consider publications in the journal among key outputs for rheology and soft-matter research.

Seminal contributions include theoretical constitutive models developed in collaboration with researchers at École Polytechnique, numerical schemes propagated by teams at University of Manchester, and microfluidic experiments from groups at Delft University of Technology. Influential articles have interface with industrial applications reported by Toyota Motor Corporation, Siemens, and Bayer AG, and with biomedical developments from Johns Hopkins University and Karolinska Institutet. Conference proceedings and invited reviews by scholars from Brown University, Duke University, Rice University, and University of Waterloo have further cemented the journal's role in disseminating advances in viscoelastic flow, shear banding, thixotropy, and non-linear stability analyses.

Category:Rheology journals