简介:[篇名]Automatedtuningofanenginemanagementunitforanautomotiveengine,[篇名]AutomotiveSignalFaultDiagnostics-PartI:SignalFaultAnalysis,SignalSegmentation,FeatureExtractionandQuasi-OptimalFeatureSelection,[篇名]Automotivetribologyoverviewofcurrentadvancesandchallengesforthefuture,[篇名]CamshaftrollerchaindriveWithreducedmeshingimpactnoiselevels,[篇名]CombatingAutomotiveEngineValveRecession,[篇名]Comparisonofreliabilityenhancementtestsforelectronicequipment,[篇名]Competitivesurfaceinteractionsofcriticaladditiveswithpistonring/cylinderlinearcomponentsunderlubricatedbreaking-inconditions,[篇名]Component-baseddistributedcontrolsystemsforautomotivemanufacturingmachinerydevelopedundertheforesightvehicleprogram,[篇名]Compressionratioinfluenceonmaximumloadofanaturalgas-fueledHCCIengine,[篇名]Computerizedanalysisoffuelsystemsperformancedynamics,[篇名]ConceptsforthecontrolofboostpressureandEGR-rateforaheavydutyengine,[篇名]Conditionmonitoringforacarengineusinghigherordertimefrequencymethod,[篇名]DesignandevaluationoftheELEVATEtwo-strokeautomotiveengine,[篇名]DevelopmentofacheepcreepresistantMg-Al-Zn-Si-basealloy,[篇名]Developmentofanozzle-foulingtestforadditiveratinginheavy-dutyDIdieselengines。
简介:EvaluationoftranscriticalCO{sub}2usinganautomotivecompressorinapackaged-unitarymilitaryECU;Exhaustmanifolddesignforacarenginebasedonenginecyclesimulation;ExhaustparticlenumberandsizedistributionswithconventionalandFischer-Tropschdieselfuels;Finiteelementacousticanalysisofanengineexhaustshieldbysequentiallycoupledmethod;FueladditiveandblendingapproachestoreducingNO{sub}xemissionsfrombiodiesel;HigherOrderTime-FrequencyAnalysisasaToolforHealthMonitoring;Howmodemengineoilscanimpactonemissionreduction;……
简介:Developmentofcombinedsiliconplatenozzles,DevelopmentofEDBMSundercomputersupportedcooperativeworkenvironment,DevelopmentofMineDetectionSix-LeggedWalkingRobotCOMET-Ⅲ,DevelopmentoftheapplicationoftheautomotiveenginetechnologytotheV6four-strokeoutboardmotor,Developmentofthermalfatigueresistantausteniticcastalloysforhigh-temperatureengineexhaustgassystems,Dieselengineelectricturbocompoundtechnology。
简介:摘要:针对公司研制生产的地铁打磨车发动机液压驱动散热系统存在漏油、噪音大、占用空间维护难度大等缺点,设计了一种电机驱动散热风扇的发动机散热系统,以发动机散热功率要求为出发点,确定了风扇和电机功率。通过实验验证,该散热系统具有噪声更低、散热效果更好等特点。