简介:[篇名]Long-termtransitionofautomotivetechnologyfromviewpointof“motorfan”roadtest,[篇名]Mitigatingeffectondriverworkloadbylanetraceassist,[篇名]Modellingvehicledynamicsforvirtualexperimentation,roadtestsupportinganddynamiccontrol,[篇名]TechniqueforMeasuringDriver'sAttentionLevelbyUsingEvent-RelatedPotentials,[篇名]Theeffectofturbulenceonpeakandaveragepressuresonacardoor,[篇名]TheFirstJapaneseFCBustobeTestedontheRoad,[篇名]TheFordMotorCompanyspin-torsionalNVHtestfacility-2,[篇名]Torque-givenControlofSwitchedReluctanceMotorDriveSuitableforElectricVehicle。
简介:[篇名]ACIVILENGINEERINGMATERIALSCOURSEWAREWITHAVIRTUALLABORATORY,[篇名]Acompactsledsystemforlinearimpact,poleimpact,andsideimpacttesting,[篇名]ADynamicTestProcedureForAdhesivelyBondedComposite,[篇名]Alow-cost,high-performanceimpacttestfacility,[篇名]Amethodologyfortheidentificationofconstitutiveandcontactlawsofmetallicmaterialsunderhighstrainrates,[篇名]Amicro/macroimpacttestatcontrolledenergyforerosionandphase-transformationsimulation,[篇名]Aproactivesystemapproachtoautomotiveimpactdevelopment,[篇名]Astudyonfracturesurfaceofagedturbinerotorsteelbyfractaldimension,[篇名]AstudyonthedeterminationoffractureparametersfortherubbertoughenedpolymericmaterialswiththeinstrumentedCharpyimpacttest,[篇名]Anexaminationofthetaylorimpactproblemforexperimentsinvolvingsquareandcircularrods,[篇名]AnalysisoftestdataobtainedformCharpyVandimpacttensiletest,[篇名]Assessingthebeddingconditionsofsewerpipesusingeigenvibration,[篇名]Bucklingbehavioranalysisofarectangulartubestructurebylateralimpactload,[篇名]CHARACTERISTICEVALUATIONOFCFRPCOMPOSITESUNDERFALLINGWEIGHTIMPACTLOADING。
简介:Charpyimpacttestmodellingandlocalapproachtofracture,Comparisonofparamctricandnon-paramerricmcthocisfordetermininginjuryrish,CORRELATIONANALYSISOFAUTOMOBILECRASHRESPONSESBASEDONWAVELETDECOMPOSITIONS,Correlationstudyondifferentbumperimpacttestmethodandpredictedresults,Damagebehaiorinceramicplasma-coatedanduncoatedglasswithsteel-ballimpact。
简介:Dropimpacttest-mechanics&physicsoffailure;Drop-impactsimulationandexperimentalverificationforspindlefixationofvideoandaudiomodule;Ductile-brittletransitionevaluationofJapaneseswordandweldmetalsusingminiaturizedimpactspecimens;Dynamicbehaviorofhighpolymerswithfocusonamacrolon;DynamicJ{sub}Rcurvesof308stainlesssteelweldfrominstrumentedimpacttestofunprecrackedCharpyV-notchspecimens;Dynamicmechanicalanalysisandtougheningmechanismsofpolycarbonateand4,4'-dihydorxydiphenylcopolycarbonate;……
简介:多年来,药物开发的瓶颈一直是在合成这个步骤上,其原因在于用以驱使合成反应的方式一直是传统的热力加热.而最新技术的开发让微波成为加热反应更有效的方法.那些本需要几小时,甚至几天才能完成的合成反应现在只需几分钟,因而让有机化学家们有更多的时间用以分析和优化他们的反应,使他们更有创造性.微波合成包括很多有优点,例如反应速率的提升,产率的提高和"更干净"的化学.由CEM所开发的新型微波环形单膜腔把所有传统合成设备的优点以及微波瞬间加热的能力结合于一个简洁但具有强大作用的仪器上.Abbott实验室(芝加哥、伊利诺斯)使用此仪器执行了针对药物开发的合成反应.化学家们发现环形单膜腔辅助有机合成的好处是在传统方法和从前的微波方法上的大量改良.