简介:SiliconoxynitridewasaddedinshapedAl2O3-SiC-Crefractorymaterialtoimprovetheslagresistanceinthispaper.Optimumaddingquantityofsiliconoxynitridepowderwasalsostudied.TheresultsshowthattheslagresistanceofAl2O3-SiC-Cshapedrefractoryisimprovedwhen2%or3%Si2N2Oisadded.AreasonableamountofSi2N2OaddedintoAl2O3-SiC-Cshapedrefractorycanproducesiliconoxideintotheslag,whichcanimprovetheviscosityofslagandpreventtheslagerosionandpenetration.
简介:AninitialstructuredesignofMMI1×8opticalpowersplittersisreported.ThewaveguidematerialisSi-basedSiO2Ge-dopedanddepositedbyPECVDmethod.Embeddedstripstructureisimpliedinthesectiondesign.ByusingBPM-CAD,afavorableresultisobtainedthatthisdevicehasasounduniformityandfairlylowloss.Meanwhile,simulationsofdesignswithcertainchangedparametersisalsoimplementedforabetterdesignconfiguration.
简介:ThemicrostructuralchangesofFe83Si4B13amorphousmotheralloyduringtheheatingprocesswereinvestigatedbyLaserScanningConfocalMicroscopy(LSCM),andthephasetransformationwasdeterminedbytheThermo-Calccalculations.ThedifferencesinthemeltingpointsmeasuredbyDifferentialScanningCalorimetry(DSC)andLSCM,andthoseobtainedbyThermo-Calccalculationswerealsodiscussed.ItisfoundthatthemeltingpointsmeasuredbyDSCandLSCMarerelativelysimilar,whereastheonsetandendofthemeltingtemperaturescalculatedbyThermo-CalcsoftwarearehigherthanthosemeasuredbyDSCandobservedbyLSCM.
简介:本文采用磁粉、X射线、CT和超声等无损检测和金相分析等方法对40CrNi2Si2,MoVA钢制零件的磁痕显示进行了系统分析。研究认为,40CrNi2Si2MoVA钢制零件的磁痕显示为显微成分沿变形方向偏析导致的马氏体转变点Ms差异所致。显微成分偏析是钢锭结晶过程中不可避免的,但可通过优化熔炼工艺参数降低显微偏析的程度。本文还分析了四种磁痕显示的类型及其判别方法。
简介:摘要 本文对张应变的 Si基外延 Ge上 NiGe薄膜的热稳定性以及 NiGe与外延 Ge接触的电学特性进行了研究。通过四探针等测试结果,表明张应变外延 Ge上 NiGe薄膜的热稳定性比 N型 c-Ge上 NiGe薄膜的热稳定性提高了 100oC,可能的原因是 NiGe薄膜与张应变的外延 Ge之间的晶格失配较小, NiGe薄膜所受到的应力较小。 I-V测试结果表明 NiGe与外延 Ge接触反向漏电流较大,器件整流比较小,势垒高度比 NiGe/c-Ge的势垒高度小。因此,要使 NiGe更好的应用于外延 Ge基的肖特基势垒源漏的 MOSFET中,还需要进一步提高外延 Ge质量。
简介:Thenotionofmultibandsuperconductivitywithdominanttwo-gapfeatureshasbeenrecentlyappliedtotheunconventionalsuperconductorCeCu2Si2forchallengingthepreviouslyacceptedconceptofnodald-wavepairing.Intheproposedstudy,therealisticmultibandFermisurfacetopologyofCeCu2Si2wasobtainedthroughfirst-principlescalculations,andanalysiswasconductedwithaneffectivetwo-bandhybridizationmodelincludingdetailedbandstructure.WithintheT-matrixapproximation,theobtainedcalculationresultsshowthatdifferentpairingcandidates,includingfullygappeds-wave,loop-nodals-wave,andd-wavepairings,couldyieldqualitativelydistinctfeaturescharacterizedbyimpurity-inducedboundstates.Thesefeaturescanbeverifiedthroughhigh-resolutionscanningtunnelingmicroscopyorspectroscopyandprovidecorroborativejustificationthatwouldbebeneficialfortheongoingresearchregardingthesuperconductinggapsymmetryofCeCu2Si2atambientpressure.
简介:利用Geant4工具包,采用强迫碰撞方法,模拟氘氚聚变中子与反冲质子法脉冲中子探测系统中的聚乙烯靶作用产生反冲质子的过程,计算了反冲质子在不同厚度Si-PIN半导体探测器灵敏区中的能量沉积谱,并将模拟计算结果与实验结果进行比较,分析给出了探测器灵敏区厚度。结果表明,计算得到的探测器灵敏区厚度与探测器灵敏区真实厚度在3%以内吻合,证明了模拟计算方法的可行性。同时,还计算了不同厚度的铝吸收片条件下,反冲质子在探测器灵敏区内的能量沉积,得到了沉积能量随铝吸收片厚度的变化曲线,可为反冲质子法脉冲中子探测器系统设计提供参考。
简介:为了解河南省内实验室在铝合金化学成分检测领域的整体水平,国家建材质检中心组织实施了铝合金化学成分中Si、Fe含量测定的实验室间比对。本次实验室比对共有20个实验室参加,推荐检测方法为:GB/T7999-2007《铝及铝合金光电直读发射光谱分析方法》,也可采用其他国家标准方法。结果表明:实验室满意结果率为80%,不满意结果率为15%,可疑结果率为5%。参加比对的绝大多数实验室能够准确检测铝合金化学成分含量。
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。
简介:Opticalmicroscope(OM),scanningelectronmicroscope(SEM),energydispersivespectrometer(EDS)andX-rayDiffraction(XRD)wereusedtostudytheeffectsofrareearthonthemicrostructuralcharacteristicsof55%Al-Zn-1.6%Sihot-dipcoatingsonsteel.TheresultsofOM,SEMandEDSshowedthatbyaddingREintothe55%Al-Zn-1.6%Sibath,thesaw-toothedshapeofintermetallicreactionlayerofcoatingbecamesmooth,andthethicknessoftheoverlayandintermetallicreactionlayerdecreased.TheXRDresultsrevealedthattheintermetallicreactionlayerwascomprisedoftwodifferentregions,abrightphaseclosesttothesteelsubstratewithphasesofFe2Al3andadarkphaseclosesttothemetalliccoatingwithphasesofFeAl3/α-Fe-Al-Si.
简介:ThestainlessFe-Mn-Sishapememoryalloy(SMA)coatingwaspreparedonthesurfaceofAISI304stainlesssteel.Theprincipalresidualstressmeasuredbythemechanicalhole-drillingmethodindicatesthattheFe-Mn-SiSMAcladdingspecimenpossessesalowerresidualstresscomparedwiththe304stainlesssteelcladdingspecimen.Themeanstressvaluesoftheformerandthelatteron10-mm-thicksubstrateare4.751MPaand7.399MPa,respectively.What’smore,theirdeformationvalueson2-mm-thicksubstrateareabout0°and15°,respectively.Meanwhile,thevariationtrendandthevalueoftheresidualstresssimulatedbytheANSYSfiniteelementsoftwareconsistwithexperimentalresults.TheX-raydiffraction(XRD)patternshowsε-martensiteexistsinFe-Mn-SiSMAcoating,whichverifiesthemechanismoflowresidualstress.That’stheγ→εmartensitephasetransformation,whichrelaxestheresidualstressofthespecimenandreducesitsdeformationinthelasercladdingprocessing.
简介:Tomeettherequirementsofelectronicvehicles(EVs)andhybridelectricvehicles(HEVs),thehighenergydensityLiNi0.8Co0.15Al0.05O2(NCA)cathodeandSi–Canodehaveattractedmoreattention.HerewereportthethermalbehaviorsofNCA/Si–Cpouchcellduringthecharge/dischargeprocessesatdifferentcurrentdensities.ThetotalheatgenerationsarederivedfromthesurfacetemperaturechangeduringelectrochemicalLi+insertion/extractioninadiabaticsurrounding.Thereversibleheatisdeterminedbytheentropiccoefficients,whicharerelatedwithopen-circuitvoltageatdifferenttemperatures;whiletheirreversibleheatisdeterminedbytheinternalresistance,whichcanbeobtainedviaV–Icharacteristic,electrochemicalimpedancespectroscopyandhybridpulsepowercharacterization(HPPC).Duringtheelectrochemicalprocess,thereversibleheatcontributeslessthan10%tototalheatgeneration;andtheheatgeneratedinchargeprocessislessthanthatindischargeprocess.Theresultsofthermalbehaviorsanalysesareconducivetounderstandingthesafetymanagementandpavingthewayforbuildingareliablethermalmodelofhighenergydensitylithiumionbattery.
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