■工学部_研究紹介_2017_英語版ファイル161220

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Tounderstandinterfacesistounderstandnature;anditleadstoplentifulapplications;e.g.,byapplyingacfields,wecanobservestrongvortexflowsduetoinduced-chargeelectro-kineticphenomena(ICEK)aroundaconductivematerial;andbyusingICEK,wecandevelopinnovativemicrofluidicdevices,suchaspump,valve,mixer,etc.Sugiokalaboratoryinvestigatesnovelmicrofluidicsystems,suchasLab-on-a-chipandmicro-TAS,usingICEKforpromisingbio-medicalapplications.Newknowledgeofinterfacesciencemayleadstoinnovativenano-machineandnano-systems.Inparticular,torealizetheinnovativenano-machinethatmimicsalivingformsuchasamicroorganisminwaterandamacrophageinahumanbody,itisessentialtounderstandthesurfacesciencebetweenthefluidandsolid.Thus,wewillpursuethisfieldtorealizesuchultimatemachineshavingthefunctionsthatonlylivingformshaveachievedsofar.Hideyuki SugiokaAssociate ProfessorPh.D. (Engineering), Kyoto University, 2012Bachelor&Master-1985,KeioUniversity.1985 -2015, CanonInc.2015.9-Present Post Simple but diversified microfluidic systems using novel phenomenaTheresearchexperienceoncomplexmicrofluidicsystemsisverysuitabletoobtainastrongpointasaresearcherwithawide-rangeoffundamentalknowledge.Iexpectthatallgraduatesofourlaboratoryobtainfundamentalscientificabilitiestoworkasaexcellentresearcherintheworld.SugiokaLabIn the FutureMechanical Systems EngineeringAfter GraduationExperiment of pump: H. Sugioka,Phys. Rev. E 83, 056321 (2011)Experiment of Valve: H. Sugioka,Phys. Rev. E 83, 025302(R) (2011)Theory of pump: H. Sugioka,Phys. Rev. E 78, 057301 (2008)Theory of valve: H. Sugioka,Phys. Rev. E 81, 036301 (2010)Theory of mixer: H. Sugioka,Phys. Rev. E 81, 036306 (2010)Theory of formation: H. Sugioka,Phys. Rev. E 80, 016315 (2009)Theory of Artificial Cilium: H. Sugioka,Phys. Rev. Applied 3, 064001 (2015)Post-ELEKIN 2012サイズW7.5cm×H4.35cm配置位置横11cm、縦2.5cmTransparent compressed wood made from Japanese cypress ( ChamaecyparisobtusaSieb. et Zucc. ) .KitazawaLabKimiyoshiKitazawaProfessorResearch Interest:Technology of plasticity; Eco-materials; Recycling; Eco-mindAwards: 1989 Paper prize (JSTP); 2005 Award of the Ministry of Education (JSEE)The cold recycling enables large reduction of energy consumption and the greenhouse gas emission in comparison with conventional recycling.Cold Recycling；Transparent Compressed WoodIn the FutureAfter GraduationTheenvironmentalproblemssuchastheglobalwarmingbecametheseriousproblemtothreatenasustainabilityofthehumandevelopment.Toreduceenvironmentalimpactsoccurringateachstageofthelifecycleofproducts,threenewtechniqueshavebeendevelopedinourlaboratory.Thefirstisatechniqueoftheincrementalformingforthepurposeofthesmalllotproductionofthesheetmetalproduct.Thesecondisatechniqueofcompressionformingforthepurposeoftheproductionofeco-productwhichcontributestofixationforacarbonlongtermwithbiomassasrawmaterials,suchaschaff,bambooandthinningwood.Thethirdisatechniqueofthecoldrecyclingofsheetmetalproductsforthepurposeofthereductionofthegreenhousegasemission.Theincrementalformingenablesustobreakawayfromthesocietyofmassproduction,massconsumptionandmassdisposal.Theproductpreparedbythecompressionformingisharmlessfornaturalecosystemandthehealthofthepersoninallstagesofthelifecycleofproduct.Thesheetmetalrestoredbythecoldrecyclinghastheformabilitythatisequaltosheetmetalrestoredbytheconventionalrecyclingincludingthemeltingprocess.Recyclingnottodissolvemetalisbecomingthereality.Graduateswhoperformedexperimentalstudyoftheeco-technologyplaysanactivepartasanengineerinmakerssuchastheelectricelectronicequipment,car,precisioninstrumentandmetal.Mechanical Systems Engineering57

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