Development and testing of an actuator for biosensor system with magnetic liquid as working body

As results were suggested a structure of a pumping system, the way to control ferromagnetic liquid and estimated basic features of the actuator: pressure in a capillary structure, velocity rate. This actuator is purposed for micropumps with low velocity rate and steady flow without ripples. Approxim...

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Vydáno v:Proceedings of the 2014 IEEE NW Russia Young Researchers in Electrical and Electronic Engineering Conference : 3-5 February 2014 s. 92 - 94
Hlavní autor: Aleksandr, Vaigachev
Médium: Konferenční příspěvek
Jazyk:angličtina
Vydáno: IEEE 01.02.2014
Témata:
Actuation
Actuators
Drag
ferromagnetic liquid
Force
Magnetic fields
Magnetic liquids
microfluidic
micropump
Micropumps
Substrates
ISBN:9781479925933, 1479925934
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Shrnutí:As results were suggested a structure of a pumping system, the way to control ferromagnetic liquid and estimated basic features of the actuator: pressure in a capillary structure, velocity rate. This actuator is purposed for micropumps with low velocity rate and steady flow without ripples. Approximate pressures were evaluated that can develop this actuator, as well as the estimated flow rate for a particular geometry of the capillary. Also a big plus of this actuator is its non-mechanical nature, allowing its use in flexible chips: lab-on-a-film. Magnetic field was employed to control the magnetic fluid. It was proposed to add to the ferromagnetic liquid mineral oil for preventing evaporation basis of ferromagnetic liquid.
ISBN:9781479925933
1479925934
DOI:10.1109/ElConRusNW.2014.6839210