Outlook for students after graduationThekeysloganofKimuraHlabis“ResearchontheLivingEnvironmentandTextiles”.Theperformancesofinteriorproductssuchastextilefloorcoveringsorsafetyassessmentsforworkingclothesareresearched.Forinstance,thequantityofhousedustmitescatteredinourlivingroombywalkingactionorstaticelectricalpropensityofworkingclothesareinvestigated.Ourworkalsoincludesproposingnewtestingmethodstointernationalstandardbodiesthroughresearchintotestingandevaluationmethodsforaccuratelydeterminingthepropertiesoftheseproducts.Graduatesstrivetoparticipateinresearchanddevelopmentworkcarriedoutbytextilemanufacturersandresearchinstitutesandofficialbusinesscorporations.ProfessorHirokazuKimuraProfessorKimuratookhispositionwiththeFacultyofTextileScienceandTechnologyatShinshuUniversityin2013afterworkingattheTechnologyResearchInstituteofOsakaPrefecture.Principalareasofresearchincludeevaluationoftheperformancesafety,andcomfortofinteriorproducts;evaluationofelectrostaticpropertiesoffibersandhigh‐polymermaterials;andindustrialstandardizationoftextilefloorcoverings.Throughtheresearchanddevelopmentofflooringmaterialsthatareelderly‐friendlyandeasyonthefeet,Ihopetohelpcreatesafeandcomfortablelivingenvironmentsthatalsocontributetohumanknowledgebycommunicatingmyfindingstotheworld.Bringing the wonder of interior textile productsto the worldA photograph of House dust mite scattered from floor covering by walking action observed by a visible ray.Structures of novel spun yarns(a) Cross section of sheath‐core structure spun yarn(b) Cross section of side by side type triplet spun yarnabManufacturingofhighPerformancefibersforprotectingoftheenvironmentandhumanhealth繊維・感性工学系Inthesyntheticfibermanufacturingmethod,themostbasicprocessisaspinninganddrawingprocess.Inthislaboratory,weproducevariouscompositefiberssuchascore‐sheathtypecompositefibersandsea‐islandfibersusingaspinningmachineforcompositefibers,andinvestigatethefiberstructureformationprocessofthecompositefibersonthespinninglineandduringthedrawingprocess.Furthermore,since2014,wehavebeenchallengingresearchappliedtotheanalysisofnonwovenfabricstructuresusingmicroX‐rayCT.Bythismethod,theinternalstructureoftheneedlepunchandmeltblownnonwovenfabricwasvisualizednondestructively,andtherelationshipbetweenthefibervolumefractionandfiberorientationinthecrosssectionandthephysicalpropertieswasquantitativelyevaluated.先進繊維工学コース9ProfessorKyoungHouKimAftergraduatingfromtheDepartmentofTextileEngineeringatBusanNationalUniversityandworkingatKoreapatentexamineroftheKoreaPatentOffice,hebecameanassociateprofessorattheFacultyofTextileScienceandTechnologyinShinshuUniversity,andtookthecurrentpositionin2019.Researchfieldsincludefiber/filmmoldingandnonwovenstructuralanalysisIfthestructurecanbecontrolledthroughresearchtodeterminethefiberstructureformationprocess,thefieldsinwhichfiberscanbeusedasindustrialmaterialssuchashigh‐performancetirereinforcementandhollowfibersforhigh‐strengthfilterscanbefurtherexpanded.Inaddition,recentresearchhasrevealedthatthestructureofnonwovenfabriccanbequantitativelyevaluatedbyusingXCT.Ifyouunderstandthebasicsandunderstandfromthefinestructureoffibers,youwillbeabletounderstandthebasicsandapplicationsregardlessofwhereyouworkinthetextileindustry.Department of Advanced Textile and KanseiEngineeringAdvanced Textile EngineeringDepartment of Advanced Textile and KanseiEngineeringAdvanced Textile EngineeringOutlook for students after graduationMelt‐blown bicomponent spinning devicedie to collector distance1 mm 10 mm 15 mm 5 mm Penetration depth of needle: 6.4 mm Penetration depth of needle: 12.7 mm Penetration depth of needle: 19.0 mm MD PE PET Visualization of nonwoven fabric internal structure by XCT measurementScanning Electron microscope image of sea/island fiberCross‐sectional photograph of sheath /core bicomponent fibers.Cross section photograph of multi porous fiber.Outlook for researchOutlook for research
元のページ ../index.html#10