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dc.contributor.authorVanagas, Gailius
dc.contributor.authorDzedzickis, Andrius
dc.contributor.authorBučinskas, Vytautas
dc.contributor.authorViržonis, Darius
dc.date.accessioned2023-09-18T20:47:05Z
dc.date.available2023-09-18T20:47:05Z
dc.date.issued2023
dc.identifier.issn0924-4247
dc.identifier.other(crossref_id)149141925
dc.identifier.urihttps://etalpykla.vilniustech.lt/handle/123456789/152578
dc.description.abstractThe combined static displacement of specifically arranged microscale electrostatic elements was analyzed to investigate a fully hermetic, perpendicular-to-plane type of electrostatic microactuator. The concept of asymmetric perimeter-supported electrostatic plates is introduced featuring softened partial clamping of plate perimeter. When engaged by an electrostatic field, asymmetrically clamped square plates tend to develop a rotating momentum, which is transferred to the background plate. Therefore, larger displacement range of the combined membrane actuator is possible by increasing of the number of elementary electrostatic cells, but not the electrostatic gap. It was shown by finite element modeling that a combination of 400 asymmetric electrostatic cells over a square background plate (the membrane actuator), roughly measured at 1 mm2, has a potential to produce a static deflection at the central point of the membrane, that is perpendicular to the plane, reaching 2 µm at 45 V or up to 8 µm at higher voltages. This result was supported by a physical model built at 1000:1 scale using stereolithographic three-dimensional printing. A potential application of the proposed perpendicular to plane membrane actuator is microfluidic systems.eng
dc.formatPDF
dc.format.extentp. 1-8
dc.format.mediumtekstas / txt
dc.language.isoeng
dc.relation.isreferencedbyScience Citation Index Expanded (Web of Science)
dc.relation.isreferencedbyScopus
dc.relation.isreferencedbyINSPEC
dc.relation.isreferencedbyMetals Abstracts
dc.source.urihttps://www.sciencedirect.com/science/article/pii/S0924424723003680
dc.source.urihttps://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85164284020&origin=inward
dc.titleModeling of fully hermetic electrostatic microfluidic valve actuator with increased displacement
dc.typeStraipsnis Web of Science DB / Article in Web of Science DB
dcterms.references19
dc.type.pubtypeS1 - Straipsnis Web of Science DB / Web of Science DB article
dc.contributor.institutionKauno technologijos universitetas
dc.contributor.institutionVilniaus Gedimino technikos universitetas
dc.contributor.institutionKauno technologijos universitetas Vilniaus Gedimino technikos universitetas
dc.contributor.facultyMechanikos fakultetas / Faculty of Mechanics
dc.contributor.facultyPersonalo direkcija / Human Resources Office
dc.subject.researchfieldT 001 - Elektros ir elektronikos inžinerija / Electrical and electronic engineering
dc.subject.researchfieldT 009 - Mechanikos inžinerija / Mechanical enginering
dc.subject.studydirectionF03 - Medžiagų technologijos / Materials technology
dc.subject.studydirectionE06 - Mechanikos inžinerija / Mechanical engineering
dc.subject.studydirectionE09 - Elektronikos inžinerija / Electronic engineering
dc.subject.vgtuprioritizedfieldsMC0101 - Mechatroninės gamybos sistemos Pramonė 4.0 platformoje / Mechatronic for Industry 4.0 Production System
dc.subject.ltspecializationsL104 - Nauji gamybos procesai, medžiagos ir technologijos / New production processes, materials and technologies
dc.subject.enelectrostatic MEMS
dc.subject.enperimeter supported plate
dc.subject.enmicrofluidic valve
dc.subject.enhermetic, electrostatic membrane
dc.subject.en3D stereolithography
dc.subject.enfinite element analysis
dcterms.sourcetitleSensors and actuators A: Physical
dc.description.volumevol. 360
dc.publisher.nameElsevier B.V.
dc.publisher.cityLausanne
dc.identifier.doi149141925
dc.identifier.doi1-s2.0-S0924424723003680
dc.identifier.doiS0924-4247(23)00368-0
dc.identifier.doi2-s2.0-85164284020
dc.identifier.doi85164284020
dc.identifier.doiS0924424723003680
dc.identifier.doi0
dc.identifier.doi10.1016/j.sna.2023.114519
dc.identifier.elaba172126229


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