Iamengagedinresearchintotheoptimaldesignanddevelopmentofsmartmaterials,nano‐compositematerials,andcompositestructures;theevaluationofmaterialproperties;andthedevelopmentofhealth‐monitoringtechnology.Iamalsopursuingmaterialdevelopmentusingbiomimetics.Iamalsoinvolvedinresearchtodevelopadvancedcompositematerialsandmultifunctionalmaterialsforaerospaceandautomotiveapplicationsaswellasevaluationandmeasuringtechnologiesformaterialsandstructures.Mylabcandesignpracticalnewmaterialsandstructuresandachieveintelligent,multifacetedfunctionalityatthenano‐scaleforenergysavingsandenvironmentalfriendliness.ProfessorQing‐QingNiProfessorNitookhiscurrentpositionafterworkingasaseniorassistantprofessorandassociateprofessorattheKyotoInstituteofTechnology.Hisareasofresearchincludecompositematerialengineering,mechanics,andthedevelopmentandapplicationofmulti‐functionalmaterials.This?TEM?photograph?of?a?nano‐composite?material?shows?silica?particles?with?an?approximate?diameter?of?10?nm.Prediction?of?structural?deformation?through?simulation 00.250.50.75100.250.50.75100.000010.0000200.250.50.751New?materials:?From?nano‐composite?materials?to?multi‐functional?materials:?Developing?and?finding?applications?for?lightweight,?high‐performance,?and?energy‐saving?products21Department?of?Machinery?and?RoboticsFunctional?Machineryand?MechanicsDetection?of?buckling?damage?and?acoustic?emission?signalsShape?recovery?and?self‐repair?functionality?for?shape‐memory?materials?using?electrical?heatingOutlook?for?researchOutlook?for?students?after?graduationGraduatesareactiveinawiderangeofDomains,rangingfromautmotiveandtransportation‐relatedcompaniestobusinessesinvolvedinmachinery,precisionequipment,andelectricalequipment.An?extraordinary?new?material:?Carbon?nanotubesCreating?and?analyzing?high‐functionalitynano‐composite?materialsIfocusonstudyingthemechanicalpropertiesofcarbonnanotubes(CNTs),forexampleelasticity,vibration,andbuckling,andusingtheCNTstodevelophigh‐functionalitynanocompositematerials.MylableveragestheuniquepropertiesofCNT,whichcannotbeachievedwithothermaterials,tocreatelightweightandhighlyfunctionalCNT‐strengthenedcompositematerialsandtoutilizetheminnumerousways.Nano‐compositematerialsmadeusingCNTcanbemadesuitableforuseinaerospaceandsportsequipmentapplicationsbyincreasingtheirmechanicalpropertiesofattenuationandvibrationcontrol.FurtherresearchanddevelopmentcanbeexpectedtoleadtoexpandeduseofCNTpropertiesfornumerouspurposes.Graduatesareactiveinawidearrayofdomains,includingatsoftwarecompaniesandgovernmentagenciesinadditiontotextile,applianceandelectricalequipment,andautomotivepartmanufacturers.ProfessorToshiakiNatsukiProfessorNatsukitookhiscurrentpositionin2020afterworkingasaresearcheratHitachiChemical’sTsukubaResearchandDevelopmentCenter,theNationalInstituteofAdvancedIndustrialScienceandTechnology,andtheNewEnergyandIndustrialTechnologyDevelopmentOrganization.Hisprincipalareasofresearchincludethecreationofcompositematerials,compositematerialengineering,andcomputationalsciencefortheanalysisandevaluationoftheirproperties.Asimplyone-stepmethodofbindingAgNPstothesurfaceofCNTsisdevelopedandevaluated.Thenanocompositescanbeusedtotransparentconductivefilms,includingelectrochromicglass,andsolarpanels.TheelasticmodulusofCNTisahighelasticmodulusofabout1TPa.ItisseenthattheeffectofthenanotubestructureonthetensilestrengthofCNTs.Heat?Plate(60℃)NozzlePETDepartment?of?Machinery?and?RoboticsFunctional?Machineryand?MechanicsOutlook?for?researchOutlook?for?students?after?graduation
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