Interfacial dynamics in complex fluids by James J. FENG, Ching-Yao CHEN

“…In this review, we illustrate the novel interfacial dynamics in complex fluids using three examples that involve three types of complex fluids: polymer solutions, liquid crystals and ferrofluids. …”
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Statistical physics of complex fluids by Golestanian, R, Khajehpour, M, Kolahchi, MR, Rouhani, S

Controlling viscous fingering instabilities of complex fluids by Alban Pouplard, Peichun Amy Tsai

“…A stable, uniform interface emerges at low Q and in a steeper cell (i.e., greater $$|\alpha |$$ | α | ) for the complex fluids, whereas unstable fingering pattern at high Q and smaller $$|\alpha |$$ | α | . …”
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Instabilities in the oscillatory flow of a complex fluid. by Torralba, M, Castrejón-Pita, A, Hernández, G, Huelsz, G, del Río, J, Ortín, J

“…The system studied represents an interesting example of the development of shear-induced instabilities in nonlinear complex fluids in purely parallel shear flow.…”

Hydrodynamics of micro-swimmers in complex fluids and environments by Mathijssen, A

Stochastic Hydrodynamics of Complex Fluids: Discretisation and Entropy Production by Michael E. Cates, Étienne Fodor, Tomer Markovich, Cesare Nardini, Elsen Tjhung

“…Many complex fluids can be described by continuum hydrodynamic field equations, to which noise must be added in order to capture thermal fluctuations. …”
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Simultaneous Rheoelectric Measurements of Strongly Conductive Complex Fluids by Helal, Ahmed H., Divoux, Thibaut Louis Alexandre, McKinley, Gareth H

“…We introduce an modular fixture designed for stress-controlled rheometers to perform simultaneous rheological and electrical measurements on strongly conductive complex fluids under shear. By means of a nontoxic liquid metal at room temperature, the electrical connection to the rotating shaft is completed with minimal additional mechanical friction, allowing for simultaneous stress measurements at values as low as 1 Pa. …”
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Optical tweezer measurements of asymptotic nonlinearities in complex fluids by Gupta, Satish Kumar, Lennon, Kyle R., Joens, Mary A., Bandi, Hari, Van Galen, Martijn, Han, YuLong, Tang, Wenhui, Li, Yiwei, Wasserman, Steven Charles, Swan, James W., Guo, Ming

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Scientific machine learning for modeling and simulating complex fluids by Lennon, Kyle R., McKinley, Gareth H., Swan, James W.

“…The formulation of rheological constitutive equations—models that relate internal stresses and deformations in complex fluids—is a critical step in the engineering of systems involving soft materials. …”
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Preface to the special issue on complex fluids at structured surfaces. by Teixeira, P, Yeomans, J

“…In this special issue we collect together experimental, theoretical and computational papers that showcase recent contributions to understanding complex fluids at structured surfaces. These underline the diversity of phenomena encountered when complex fluids interact with complex surfaces.…”

Oscillatory flow of rheological complex fluid in a flat channel by Navruzov Kuralboy, Sharipova Shokhista

“…The article examines the oscillatory flow of rheological complex fluids in a flat channel, in which the rheological complex fluid was obtained based on the Maxwell model, and its mixture is described based on the Newtonian fluid model. …”
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A Hierarchical Grid Solver for Simulation of Flows of Complex Fluids by Antonio Castelo, Alexandre M. Afonso, Wesley De Souza Bezerra

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Feature identification in complex fluid flows by convolutional neural networks by Shizheng Wen, Michael W. Lee, Kai M. Kruger Bastos, Ian K. Eldridge-Allegra, Earl H. Dowell

“…However, the pattern recognition central to the networks function is equally valuable for enhancing our dynamical insight into the complex fluid dynamics. In this paper, a single-layer convolutional neural network (CNN) was trained to recognize three qualitatively different subsonic buffet flows (periodic, quasi-periodic and chaotic) over a high-incidence airfoil, and a near-perfect accuracy was obtained with only a small training dataset. …”
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A canonical framework for modeling elasto-viscoplasticity in complex fluids by Dimitriou, Christopher J, McKinley, Gareth H

“…A comprehensive framework for modeling elasto-viscoplasticity in complex fluids is discussed. It is based on the plasticity mechanism of kinematic hardening, which is widely accepted in solid mechanics and accounts for transient yielding processes. …”
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Tracers and Timescales: Tools for Distilling and Simplifying Complex Fluid Mechanical Problems by Lisa V. Lucas, Eric Deleersnijder

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Interaction between a complex fluid flow and a rotating cylinder by Cuong Mai Bui, Thinh Xuan Ho

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Pseudo-Laminarization of Mixed Microbubble Water and Complex Fluids in Capillary Flows by Takaki Kobayashi, Akiomi Ushida, Taisuke Sato

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Analysis of flow-induced vibrations in turbomachinery by mapping of complex fluid pressures by N Wirth, A Oeckerath

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“Holographic Implementations” in the Complex Fluid Dynamics through a Fractal Paradigm by Alexandra Saviuc, Manuela Gîrțu, Liliana Topliceanu, Tudor-Cristian Petrescu, Maricel Agop

“…Assimilating a complex fluid with a fractal object, non-differentiable behaviors in its dynamics are analyzed. …”
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A versatile interferometric technique for probing the thermophysical properties of complex fluids by Gopal Verma, Gyanendra Yadav, Chaudry Sajed Saraj, Longnan Li, Nenad Miljkovic, Jean Pierre Delville, Wei Li

“…Here, we report a versatile, pump-probe-based, rapid, and non-contact interferometric technique that resolves interface dynamics of complex fluids with the precision of ~1 nm in thick-film and 150 pm in thin-film regimes below the thermal limit without the use of lock-in or modulated beams. …”
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