简介:PureAl2O3-2SiO2powderswerepreparedbysol-gelandcoprecipitationmethods,andtheiralkaliactivationreactivitieswerecompared.Thealkali-activationreactivityofthepowderpreparedbythesol-gelmethodwashigherthanthatofthepowderpreparedbythecoprecipitationmethod.Thepowderswereinvestigatedby27AIand29Simagic-anglespinningnuclearmagneticresonancespectroscopy(MASNMR)tounderstandtherelationshipbetweentheirstructureandalkali-activationreactivity.The27AlMASNMRdatashowedthatthefive-coordinateAIcontentofthepowderpreparedbythesol-gelmethodwashigherthanthatofthepowderpreparedbycoprecipitation.Thehighercontentoffive-coordinateAlcorrespondedtohigheralkali-activationreactivity.The29SiMASNMRdatashowedthatforthepowderpreparedbythesol-gelmethod,siliconwasreplacedbyaluminumatsecondarycoordinationsitesofthecentralSiatomsduringcalcination.However,forthepowderpreparedbysingle-batchcoprecipitation,themainchangewasfromalowdegreeofpolycondensationtoahighdegreeofpolycondensation.
简介:AnFEanalysisprocedurewaspresentedtopredictthebehaviorofsoilogeogridinterctionunderautomobileloading.Thedynamicinteractionsbetweenthetransversebars,thelongitudinalribsandthesoilweresimulatedbyasystemconsistingofnonlinearsprings,dashpotsandmasses,tostudythedeformationpropertiesofthereinforcedsoil.Theequivalentstiffnessanddampingratioscouldbedeterminedwiththeshakingtable.Thedynamicresponsesofareinforcedsubgradewereanalyzedwiththe3Dfiniteelementapproach.Thisapproachisprogrammedandappliedtoanalyzethesoilogeogridinteractionunderdynamicloading.Thecomparativeanalysisoftheresponseofthereinforcedsubgradeandthatofthesubgradewithoutreinforcementshowsthatthegeogridplacedatthebottomofthebaselayermayeffectivelyreducetheaccumulativeplasticdeformationduetothecyclicautomobileloading.
简介:Uniformlysizedα-Fe2O3hexagonalplateletsweresynthesizedbyahydrothermalprocessusingFe(OH)3suspensionandlargeamountofNaOH.ThereactionproductswerecharacterizedbyX-raydiffraction(XRD),scanningelectronmicroscopy(SEM),transmissionelectronmicroscopy(TEM),selectedareaelectrondiffraction(SAED),andavibratingsamplemagnetometer(VSM).Theresultsshowthatthehexagonalplateletsarefine,monodisperseandconsistingofsingle-crystals.Themagnetichysteresis(M-H)curveofthesamplesmeasuredatroomtemperatureindicatesthattheα-Fe2O3micro-plateletsexhibitferromagneticbehaviorswithrelativelylowcoercivity.
简介:Inthealloywithsolutecontenthigherthanthelimitingsolubility,thesoluteatomsthathavefailedtodissolvewillprecipitatefromthesolidsolutionandformprecipitations.Inthisstudy,thePortevin-LeChatelier(PLC)effectsinannealed5456and5052aluminumalloyswithdifferentprecipitationcontentshavebeeninvestigatedunderdifferentappliedstrainrates.TheresultssuggestthatprecipitationshavesignificanteffectonthePLCeffectandthemoretheprecipitationsare,thegreaterthe...
简介:Acleanmethodforpreparinglayereddoublehydroxides(LDHs)hasbeendeveloped,featuredbyusingthehydroxidesoftwodifferentmetalsasstartingmaterialsbyatom-economicreactions.Thereactionswerecarriedoutunderhydrothermalconditionsineitherahighpressureautoclaveoramicrowavedigester.Thecompositions,structuralparametersandthermalbehavioroftheresultingLDHsareverysimilartothoseofmaterialsproducedbyusingtheseparatenucleationandagingsteps(SNAS)method.Themajoradvantageofthenewmethodisthatnoby-productisproduced,sothatfiltrationandwashingprocessesareunnecessary.Theconsequentreductioninwaterconsumptionisbeneficialtotheenvironment.
简介:有从30~80nm的尺寸的Fe3O4nanoparticles被湿milling铁粉末在一家行星的球工厂综合。阶段作文和同样综合的产品的形态学被X光检查衍射(XRD)测量,扫描电子显微镜学(SEM)和传播电子显微镜学(TEM)。NanosizedFe3O4粒子被湿milling准备金属性的铁粉末(?200网孔,99%)在与不锈钢装备的一家行星的球工厂,使用的小瓶与50:1并且以300rpm的旋转速度的ball-to-powder团比率在提取的水下面熨球。在这个方法的铁球的使用在Fe3O4formation起了一个关键作用。现在的技术简单,这个过程是容易的执行。
简介:Nanostructuredtransitionmetaloxidesarepromisingalternativeanodesforlithiumionbatteries.Li-ionstorageperformanceisexpectedtoimproveifhighpackingdensityenergyparticlesareavailable.Herein,Mn2O3microsphereswithaca.18μmdiameterandatappeddensityof1.33g/cm3weresynthesizedbyafacilesolvothermal-thermalcoversionroute.SphericalMnCO3precursorswereobtainedthroughsolvothermaltreatmentandtheydecomposedandconvertedintoMn2O3microspheresatanannealingtemperatureof700C.TheMn2O3microspheresconsistedofMn2O3nanoparticleswithanaverage40nmdiameter.TheseporousMn2O3microspheresallowgoodelectrolytepenetrationandprovideanionbufferreservoirtoensureaconstantelectrolytesupply.TheMn2O3microsphereshavereversiblecapacitiesof590and320mAh/gat50and400mA/g,respectively.Wethusreportanefficientrouteforthefabricationofenergyparticlesforadvancedenergystorage.
简介:密度功能的理论(DFT)学习被执行了为[Znn?1Al(OH2)n+6(哦)2n?2]3+(n=36)并且[Znn?1Al(OH2)2n?2(哦)2n?2]3+(n=7)簇,它包括象brucite一样格子的基本结构的信息在范围与Zn/Al臼齿的比率(R)Zn/Al分层的双氢氧化物(LDH)组织26,以便在二进制Zn/AlLDH的结构和稳定性上理解Zn/Al比率的效果。基于几何参数的系统的计算和簇模型的形成精力,Zn2+和Al3+阳离子用不同R价值在象brucite一样结构同态地代替Mg2+是可能的,这被发现,在簇和单位房间参数的微观结构导致差别一ofZn/AlLDH。几何学的分析并且在三价的Al3+或二价的Zn2+阳离子附近结合表明Al3+在当时,决定微观结构性质,形成和相应ZnRAl簇的结合的稳定性比Zn2+起一个更重要的作用R<5,当Zn2+的影响在R5的情况中成为主导的因素时。这些调查结果在对实验的好同意。这个工作提供阳离子的作文怎么影响包含Zn二进制LDH层的微观结构和稳定性的详细电子水平的理解。
简介:Multi-walledcarbonnanotubes(MWNTs)with20nmouterdiameterwerepreparedbychemicalvapordepositionofethyleneusingultrafinesurface-modifiedacicularα-Fecatalystparticles.ThegrowthmechanismofMWNTsonthelargercatalystparticlesareattributedtotheinteractionbetweentheFenanoparticleswiththesurface-modifiedsilicalayer.Thisinteraction-mediatedgrowthmechanismisillustratedbystudyingtheelectronic,atomicandcrystalpropertiesofsurface-modifiedcatalystsandMWNTsproductsbycharacterizationwithX-raydiffraction(XRD),transmissionelectronmicroscopy(TEM),highresolutiontransmissionelectronmicroscopy(HRTEM),thermalgravimetricanalysis(TGA)andRamanspectra.
简介:Carbonnanotube(CNTs)/Fe-Ni/TiO2nanocompositephotocatalystshavebeensynthesizedbyaninsitufluidizedbedchemicalvapordeposition(FBCVD)method.ThecompositephotocatalystswerecharacterizedbyXRD,Ramanspectroscopy,BET,FESEM,TEM,UV-visspectroscopy,andXPS.TheresultsshowedthattheCNTsweregrowninsituonthesurfaceofTiO2.Fe(lll)inTiO2showednochemicalchangesinthegrowthofCNTs.Ni(Ⅱ)waspartlyreducedtometalNiintheFBCVDprocess,andthemetalNiactedasacatalystforthegrowthofCNTs.ThephotocatalyticactivitiesofCNTs/Fe-Ni/TiO2decreasedwiththeriseoftheFBCVDreactiontemperature.ForthesamplesynthesizedatlowFBCVDtemperature(500℃),morethan90%andnearly50%ofmethylenebluewereremovedunderUVirradiationin180minandundervisiblelightirradiationin300min,respectively.TheprobablemechanismofsynergisticenhancementofphotocatalysisontheCNTs/Fe-Ni/TiO2nanocompositeisproposed.