简介:Developmentofcombinedsiliconplatenozzles,DevelopmentofEDBMSundercomputersupportedcooperativeworkenvironment,DevelopmentofMineDetectionSix-LeggedWalkingRobotCOMET-Ⅲ,DevelopmentoftheapplicationoftheautomotiveenginetechnologytotheV6four-strokeoutboardmotor,Developmentofthermalfatigueresistantausteniticcastalloysforhigh-temperatureengineexhaustgassystems,Dieselengineelectricturbocompoundtechnology。
简介:摘要 众所周知,随着外贸转包业务的深入发展,产品开发周期要求越来越短,通过对外贸转包过程中参与国外航空零部件同步开发工程总结、研究,分析同步工程的特点,结合航空产品开发过程中不同阶段特征,制定出合理的开发方案及联合机制。保证同步工程在产品开发过程中,与客户形成同步设计、同步生产、同步更改、同步定性的联动工作,缩短产品开发周期,为早日投入市场争取机会。
简介:摘要:当今社会是科技发展的社会,航空工业的发展能够真实的反映国家工业的制造水平及制造能力,体现了国家的工业化的进程。我国对航空工业的建设非常重视,加大了人力物力的投入,取得了卓越的成果。现如今,我国已经能够自主设计并制造飞机,制造水平居于世界的前列,发动机、飞机机体及航空设备制造产业逐渐成熟。由此可见,飞机制造产业集合了多领域多学科的技术,是一整套复杂精细的系统化制造工程。飞机制造技艺的发展由发动机的制造水平决定,发动机制造是由各种精密零部件组合而成,我国对航空发动机的制造水平要求较高,所以零部件的加工质量与加工效率决定了整个飞机制造行业的整体水平,我们需要重点考虑加工制造水平,通过加大数控加工机床行业的投入,完成对航空零部件的切削操作,提高加工效率,使航天发动机的制造加工技术更高,从而完成航空航天的高速化发展。
简介:Developmentofanaluminumtorquerodforheavy-dutytrucksuspension;DevelopmentofDissolutionMethodandUnitOperationUsingVegetableOilforPlasticRecycling;Developmentofferriticstainlesssteelsheetswithexcellentdeepdrawabilityby(111}recrystallizationtexturecontrol;DevelopmentofhighmagneticperformanceP/Msoftmagneticmaterial;Developmentofhigh-strengthmagnesiumalloywire;DevelopmentofLead-freeFree-cuttingSteel;……
简介:Anewflowdiagrammingschemeformappingandanalysisofmulti-productflowsinafacility;Anewgeneticalgorithmforthemachine/partgroupingprobleminvolvingprocessingtimesandlotsizes;Acousticemissionduringquenchingof42CrMo4steel;Anothersimilaritycoefficientforthep-medianmodelingrouptechnology;Investigationofabnormalwearofmassivemachinepart-welded-technicalchromiumlayersystem……
简介:[篇名]Alowcostroboticsmachinetendingsystem,[篇名]Anovel,newdirectinjectiontechnologyforin-linecompoundingandmoldingofLFTautomotivestructures,[篇名]Aproposalofhigherprecisionandreducingpressworkingloadinformingofhigh-tensilesteelsheetsforautomobiles,[篇名]AdvancedPlasmaNitridingforAluminumandAluminumAlloys,[篇名]Aluminumalloysheetsforautomotiveparts,[篇名]Anadvancedcastingtechnologyforrecyclingofthehigh-tensilesteelsheetpressedge,[篇名]AnalysisofBendingDeformationBehaviorduringLaserWeldinginCylindricalParts,[篇名]AnalysisofBendingDeformationBehaviorinCylindricalPartsbyCircumferentialWelding-StudyofDeformationBehaviorbyLaserWeldinginMicronorSub-MicronLevelinAutomobileParts(Report1),[篇名]ANALYSISOFDEFORMATIONBEHAVIOROFPIPEUNDERLASERWELDING,[篇名]Analysisofpolyurethanefoamingflow-Part1:applicationoffoamingdensityformulato3-Dflowanalysis,[篇名]Applicationofhydroformingsimulationondevelopmentofautomobileparts,[篇名]Applicationofintensivequenchingtechnologyforsteelparts,[篇名]Applicationofnyloncompositerecycletechnologyforautomotiveapplications,[篇名]Applicationofnyloncompositerecycletechnologytoautomotiveparts,[篇名]Applicationoftitaniumalloysforincreasingautomobileperformance。
简介:Applicationoftubehydroformingtoautomotiveparts,AppliedinvestigationofBio-Plastics,Automotiveapplicationsofmagnesiumalloys,AZ80andZC71/SiC/12pcloseddieforgingsforautomotiveapplications:technicalandeconomicassessmentofpossiblemassproduction,Burnishingversusgrindingforautomotiveparts,CAD-GuidedSensorPlanningforDimensionalInspectioninAutomotiveManufacturing。