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Opis bibliograficzny

Design of a pinch mode magnetorheological flow bench: magnetic field analysis / Michal Kubik, Janusz Gołdasz, Ondrej Machacek, Bogdan SAPIŃSKI // W: ACTUATOR 2022 : international conference and exhibition on New Actuator Systems and Applications : 29-30 June 2022, Mannheim, Germany. — [Berlin] : VDE, 2022. — ISBN: 978-3-8007-5894-4. — S. 196-198. — Bibliogr. s. 198, Abstr.

Autorzy (4)

Kubik Michal
Gołdasz Janusz
Machacek Ondrej
AGHSapiński Bogdan

Dane bibliometryczne

ID BaDAP	143051
Data dodania do BaDAP	2022-10-18
Tekst źródłowy	URL
Rok publikacji	2022
Typ publikacji	materiały konferencyjne (aut.)
Otwarty dostęp

Abstract

Magnetorheological (MR) fluids are known representatives of smart materials. The technology has been used commercially in, e.g. controlled semi-active dampers. In the (existing) conventional flow-mode valves the MR fluid is energized by magnetic flux perpendicular to the fluid flow path. The effect is an increase in the material's effective resistance-to-flow. The so-called gradient pinch mode (GPM) follows a different principle – the flux in the flow channel is directed to activate the fluid in the areas adjacent to the channel walls. Then, high yield stresses are induced in the material layer near the walls and low yield stress are achieved in the middle of the channel; the yield stress distribution is non-uniform. A Venturi-like contraction is formed solely by material means, i.e. without changing the flow path geometry. This may lead to a new category of controlled semi-active valves. However, a fundamental research is still required to characterize the rheology of MR fluids in this mode. In the study the authors explore opportunities for building a pinch mode valve assembly for the experimental work with MR fluids. The authors consider a solenoid assembly that can be integrated into a flow bench, and then proceed with a finite-element (FE) magnetostatic study of the valve's model. The results are then presented in the form of flux density maps and averaged flux density vs current (ampere turns) characteristics, respectively, for a range of gap diameters and the pinch gap lengths.

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fragment książki

#153805Data dodania: 20.6.2024

Computational study of fluid flow in multi-stage pinch mode MR valves / Janusz Gołdasz, Bogdan SAPIŃSKI, Michal Kubik // W: ACTUATOR 2024 [Dokument elektroniczny] : international conference and exhibition on New Actuator systems and applications : June 13 - 14, 2024 Wiesbaden, [Germany] : GMM conference / [ed.] Ronald Schnabel ; VDE VDI-Society Microelectronics, Microsystems and Precision Engineering (GMM). — Wersja do Windows. — Dane tekstowe. — Berlin : VDE VERLAG GMBH, cop. 2024. — (GMM-Fachbericht ; ISSN 1432-3419 ; 110). — Dod. ISBN 978-3-8007-5894-4 (CD-ROM). — e-ISBN: 978-3-8007-5895-1. — S. 60-63. — Wymagania systemowe: Adobe Reader. — Tryb dostępu: https://s.agh.edu.pl/6fNG2 [2024-06-18]. — Bibliogr. s. 63, Abstr.

Szczegóły

fragment książki

#148180Data dodania: 11.9.2023

Pinch mode magnetorheological flow bench: fluid flow analysis / J. Gołdasz, B. SAPIŃSKI, M. Kubik, O. Machacek, W. Bańkosz // W: SMART 2023 [Dokument elektroniczny] : 10th ECCOMAS thematic conference on Smart structures and materials : Patras, Greece, July 3-5, 2023 / eds. D. A. Saravanos, [et al.]. — Wersja do Windows. — Dane tekstowe. — Greece : University of Patras, cop. 2023. — e-ISBN: 978-960-88104-6-4. — S. 1373–1380. — Wymagania systemowe: Adobe Reader. — Tryb dostępu: https://generalconferencefiles.s3.eu-west-1.amazonaws.com/sma... [2023-10-03]. — Bibliogr. s. 1379–1380, Abstr. — Abstrakt w: SMART 2023 : 10th ECCOMAS thematic conference on Smart structures and materials : Patras, Greece, July 3-5, 2023 : book of abstracts / eds. D. A. Saravanos, [et al.]. — Greece : University of Patras, cop. 2023. — S. 164

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