Magnetorheological effect in the magnetic field oriented along the vorticity / Kuzhir P.,Magnet C.,Rodriguez-Arco L.,Lopez-Lopez M. T.,Fezai H.,Meunier A.,Zubarev A.,Bossis G. // JOURNAL OF RHEOLOGY. - 2014. - V. 58, l. 6. - P. 1829-1853.

ISSN/EISSN:

0148-6055 / нет данных

Type:

Article

Abstract:

In this work, we have studied the magnetorheological (MR) fluid rheology in the magnetic field parallel to the fluid vorticity. Experimentally, the MR fluid flow was realized in the Couette coaxial cylinder geometry with the magnetic field parallel to the symmetry axis. The rheological measurements were compared to those obtained in the cone-plate geometry with the magnetic field perpendicular to the lower rheometer plate. Experiments revealed a quasi-Bingham behavior in both geometries with the stress level being just a few dozens of percent smaller in the Couette cylindrical geometry at the same internal magnetic field. The unexpectedly high MR response in the magnetic field parallel to the fluid vorticity is explained by stochastic fluctuations of positions and orientations of the particle aggregates. These fluctuations are induced by magnetic interactions between them. Once misaligned from the vorticity direction, the aggregates generate a high stress independent of the shear rate, and thus assimilated to the suspension apparent (dynamic) yield stress. Quantitatively, the fluctuations of the aggregate orientation are modeled as a rotary diffusion process with a diffusion constant proportional to the mean square interaction torque. The model gives a satisfactory agreement with the experimental field dependency of the apparent yield stress and confirms the nearly quadratic concentration dependency sigma(Y) proportional to Phi(2.2), revealed in experiments. The practical interest of this study lies in the development of MR smart devices with the magnetic field nonperpendicular to the channel walls. (C) 2014 The Society of Rheology.

Author keywords:

STEADY SHEAR-FLOW; FIBER SUSPENSIONS; MR FLUIDS; RHEOLOGY; BEHAVIOR; ORIENTATION; PARTICLES

DOI:

10.1122/1.4893586

Web of Science ID:

ISI:000345194700009

Соавторы в МНС:

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Другие поля

Поле	Значение
Month	NOV-DEC
Publisher	JOURNAL RHEOLOGY AMER INST PHYSICS
Address	STE 1 NO 1, 2 HUNTINGTON QUADRANGLE, MELVILLE, NY 11747-4502 USA
Language	English
Keywords-Plus	STEADY SHEAR-FLOW; FIBER SUSPENSIONS; MR FLUIDS; RHEOLOGY; BEHAVIOR; ORIENTATION; PARTICLES
Research-Areas	Mechanics
Web-of-Science-Categories	Mechanics
Author-Email	pavel.kuzhir@unice.fr
ResearcherID-Numbers	Rodriguez-Arco, Laura/K-6056-2014 Lopez-Lopez, Modesto T/K-7327-2012
ORCID-Numbers	Rodriguez-Arco, Laura/0000-0002-5527-7547 Lopez-Lopez, Modesto T/0000-0002-9068-7795 Kuzhir, Pavel/0000-0001-7089-6197
Funding-Acknowledgement	Junta de Andalucia, Spain {[}P09-FQM-4787]; PICS {[}161801]; Secretaria de Estado de Educacion, Formacion Profesional y Universidades (MECD, Spain) through FPU; Estancias Breves programs; {[}260073]
Funding-Text	This work has been supported by Projects P09-FQM-4787 (Junta de Andalucia, Spain), ``Factories of the Future{''} (Grant No. 260073, DynExpert FP7) and PICS 161801 project: ``Magnetic nanocomposites for mechanical and biological applications{''} with Ural Federal University, Russia. In addition, L.R.-A. acknowledges financial support by Secretaria de Estado de Educacion, Formacion Profesional y Universidades (MECD, Spain) through its FPU and Estancias Breves programs.
Number-of-Cited-References	37
Usage-Count-Last-180-days	3
Usage-Count-Since-2013	18
Journal-ISO	J. Rheol.
Doc-Delivery-Number	AT8PL