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:通过构建人体有限元模型,研究交通事故中儿童胸腹部生物力学响应及损伤机理,对提高汽车安全性设计具有重要意义。基于CT医学图像构建了包括胸骨、肋骨和内脏等软硬组织在内的具有详细解剖学结构的6岁儿童乘员胸腹部有限元模型,并构建了具有真实几何形状的斜方肌、外斜肌、冈下肌、肩胛下肌等肌肉组织。利用所构建的模型重构了儿童胸部碰撞尸体试验,仿真得到的胸部撞击力-变形量曲线、粘性准则(ViscousCriterion,VC)值与尸体试验结果呈现一致性,表明了该模型的有效性。对碰撞中肋骨、心脏和肺等胸部组织器官的应力应变进行了分析,结合损伤准则讨论了其损伤状况及损伤机理。
简介:传统车载激光惯导算法验证方式需要消耗大量的人力物力,而且算法性能的评估结果受各种外界因素影响较大,针对上述问题,提出基于实验室半物理仿真平台的激光惯导算法验证方法,并搭建了该仿真平台。研究表明,基于实验室半物理仿真平台的激光惯导算法验证方法相比传统算法验证方法具有快捷、简单、准确、客观等诸多优点。