简介:ApplicationofCFDonacatalyticrotatingbasketreactor;ApplicationofCFDtechnologyanalyzingthe;ApplicationofFuzzyLogictoUnitCommitmentProblem;ApplicationofShockPressingfortheProcessingofBulkNanocrystallincNd-Fc-BMagnets;ApplicationofThinCarbonFibersPreparedbyPolymer-BlendTechniqueforLithium-IonBatteryNegativeElectrode;Auctiondesignforancillaryreserveproducts;Balancingofflexiblerotorsfromasingleadditionaltest
简介:ll{supleft}Band10{supleft}BMASNMRstudiesofdistortedtetrahedralcoordinationofwurtziteboronnitride,125{supleft}TeNMRtomographyof[Re{sub}6]clusterinRe{sub}6Te{sub}15andrelatedclustercompounds,13{supleft}CCPMASNMRandGIAO-CHFcalculationsofcoumarins,35{supleft}Clquadrupolarconstantsobtainedbysolid-stateNMR:studyofchlorinatedAI-O-Pclusters,involvingOH...CIhydrogenbonds,59{supleft}Co,23{supleft}NaNMRandelectricfieldgradientcalculationsinthelayeredcobaltoxidesNaCoO{sub}2andHCoO{sub}2.
简介:AstandardforsilverCP/MASexperiments;Astudyofthestressandstraindistributionsoffirst-passconventionalspinningundcrdifferentroller-traces;AstudyonthewearresistanceofZrO{sub}2/Al{sub}2O{sub}3ceramicscissorsforspinningandweaving;AdvancedMaterialsandProcessesforLarge,Lightweight,Space-BasedMirrors;AirTurbnlenceInteractionDuringFiberizationPtocessesⅢ;AnanalyticalformulationofCPMAS;
简介:起落架40CrNi2Si2MoVA钢螺桩在安装一段时间后发生了断裂。为确定螺桩断裂的原因,对断裂螺桩断口宏微观形貌、断裂螺桩及对比件的氢含量、材料的性能以及表面损伤等因素进行了检查,并对电镀工艺进行了评定。结果表明,裂纹主要起源于第一螺纹根部的机械损伤部位,源区以沿晶断裂特征为主,断裂件含氢量较高。综合分析认为。螺桩断裂性质为氢致延迟断裂,表面机械损伤对氢吸收和扩散的促进作用和40CrNi2Si2MoVA钢材料高强度所致的高氢脆敏感性是导致断裂的主要原因。