9AssociateProfessorZHUChunhonginDr.ZhureceivedherPh.D.EngineeringShinshuUniversityandshetookhercurrentpositionin2020.Hermajoristextileengineering,andnowherresearchtopicsarefocusedonsmartthree-dimensionaltextiles.AssociateProfessorTAKARADAWataruDr.Takaradaisassociateprofessoroftextileengineeringfrom2024afterworkingatTokyoInstituteofTechnologyandTorayIndustries,Inc.Hisworkfocusedspecificallyontherelationshipbetweenprocessingconditions,higher-orderstructureandphysicalpropertiesofpolymermaterials.先進繊維?感性工学科Department of Advanced Textile and KanseiEngineeringfromtextilesandfacultyofDepartment ofImprovingformulatingaUnderstandingtheproblem,hypothesis,andverifyingtheresult.Bydevelopingtheoreticalthinkingskills,itispossibletoworkinawiderangeoffields.experiments,Equipmenttosimultaneouslymeasuringthediameterandspeedofaspinningline:Spinningspeedis240km/h.Fiber structure analysis by WAXD.(Stereo-complex crystal of PLA)Used with permission from ACS Nano 2022, 16, 12801-12812A fabric that can respond to changing temperatures to heat up and cool down its wearer depending on needA knitting fabric that can generate electricity by lapping for powering led bulbThree-dimensional-structured textilesDirect compression test of single carbon fiber.Advanced Textile and Kansei Engineering先進繊維?感性工学科Advanced Textile EngineeringWewearclothesforavarietyofexpects,suchasbeauty,assistanceinbodytemperatureregulation,orbodyprotection.However,whengoingbackandforthfromoutdoorsinthehotsuntoacoolroom,thereisapossibilitythatitmaycausepoorphysicalconditionsduetothedrastictemperaturedifference.Developingakindofpersonalthermalmanagementtextileisconsideredtobeausefulwaytomitigatethem.Therefore,ourlaboratoryisinvestigatingwearableandtemperature-controlledsmarttextiles.Wearealsoworkingonthedevelopmentsofwearablepower-generatingsmarttextilesandtextileswithathree-dimensionalstructurethroughstructuraldesign.Outlook for researchTextilesareusedinallaspectsof“clothing”and“housing”.Onanotherfront,intheIoTsociety,smarttextiles(alsocalledintelligenttextiles,smartclothing)willbeputintopracticalusethroughmaterial,processdevelopment,andimplementation.Webelievethatthefusionoftextileengineering,textileengineering,energy,electroniccommunication,andotherfieldsofstudywillleadtodevelopmentandcreatenewthings.Outlook for students after graduationIhopethatgraduateswillnotonlyspecializeintextileengineering,includingtextilematerials,technologies,applications,butalsohaveaglobalviewandcommunicationskillsthroughtheiractivelearning.Outlook for researchFibersandfilmsarefundamentalmaterialsusedinmanyproducts.theperformanceofthesematerialsleadstotheevolutionoftheseproducts-Comfortableclothingandseats,fuel-efficientautomobiles,clearerdisplaydevicesthatconsumelesspower,lighterandeasier-to-usetools,morehuman-likerobots,etc.Outlook for students after graduationconductingEvenwhenmoleculeswiththesamechemicalstructureareusedinpolymermaterials,theirphysicalpropertiescanvarygreatlywiththeorderofthemoleculesischanged.Thismolecularcalledmolecular“structure”.Westudywhat“structure”improvesthephysicalpropertiesofaproduct,andhowtoprocessthepolymertoachievethat“structure”.stateisAdvanced Textile EngineeringSmarttextilesto enrich our livesUnderstanding of polymer processing and creating valuable materials
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