Li-Bin NiuWehavebeenconductingresearchesonthevariouscorrosionmechanismsandthepreventionsoftheboilerequipmentmaterialsandthesteamturbinematerialsforthermalandgeothermalpowerplants.Wealsoresearchonthecreepstrengthsandfracturesofthehigh-pressuresteamturbinerotormaterialsforthermalpowerplantsforlong-termservicesathighertemperatures.Contributetothesafetyimprovementofpowergenerationsandtheeffectiveutilizationofgeothermalenergy.Asengineersandscientistsinthefuturewepersistinstudy,experiment,analysis,calculationanddiscussionsinthelaboratory,aswellaspresentationsinacademicmeetings,toacquirepracticalabilityandknowledgeonengineeringmaterials.Associate ProfessorPh.D.His academic researches span the strengths and fractures of engineering materials.ImprovingtheReliabilityofPowerPlantMaterialsManyofourgraduatesareactiveinthefieldofresearchanddevelopment,designandproductionmanagementintherelatedcompaniesofmaterial,machinery,automobile,powerandelectricalmachinery.0.5mm0.2mmAnalyzing the passive films formed on the boiler tube steels in the simulated boiler feed-water of thermal power plants with XPS.Creep cracks generated near notch-root of a turbine rotor steel and the distributions of mean stress calculated by FEM.A pit formed on the specimen surface of a turbine blade steel.In the FutureAfter GraduationMechanical Systems EngineeringGaruda FujiiIn the FutureAfter GraduationMechanical Systems EngineeringTopologyoptimizationisapowerfulnumericaldesignmethodologythatreproducestheimprovementofdeviceperformanceevaluatedusingnumericalanalyses.Topologyoptimizationmethodallowsnotonlyshapevariationbutalsoavariationofstructuraltopology,whichincludesthecreationsofnewpores,andthemethodpotentiallyprovideshighdesignfreedomwithinstructuralchange.Wedeveloptopologyoptimizationsintermsofstructuralexpressions,explorationmethodforoptimaltopology,andapplications.Newfunctionalitysuchascloakingwillbedemonstratednotonlysimulationsbutalsoexperimentsthroughtopologyoptimization,3Dprintings,andadvancedmachinerycuttings.WecanprovideyoueducationalopportunitiesandexpertizesonComputationalPhysics,StructuralOptimizationsandNumericalProgramming.Associate ProfessorDr. in Eng. 2012, Nagoya University. Specialty: Structural Optimization, Finite Element Method, Level Set Method, Evolutional Computation. Designing New Functional Devices through Topology OptimizationCMA-ESbasedtopologyoptimizationforinvisiblecloakBifunctionaldevicedesignedbytopologyoptimization54
元のページ ../index.html#56