简介:Theadsorptiveremovalofarsenicbysynthetically-preparednanoFe-Mnbinaryoxides(FM)wasinvestigated.AnovelmethodusingpotassiumpermanganateandferricchlorideasrawmaterialswasusedtosynthesiseFM.ThemolarratioofFeandMninthesyntheticFe-Mnbinaryoxideswas4:3.TheFM-1andFM-2(preparedatdifferentactivationtemperatures)havinghighspecificsurfaceareas(358.87and128.58m2/g,respectively)wereamorphousandofnanoparticletypes.TheamountofarsenicadsorbedonFM-1washigherthanthatadsorbedonFM-2particles.AfteradsorptionbyFM-1,residualarsenicconcentrationdecreasedtolessthan10μg/L.Theadsorptionkineticsdatawereanalyzedusingdifferentkineticmodelsincludingpseudofirst-ordermodel,pseudosecond-ordermodel,Elovichmodelandintraparticlediffusionmodel.Pseudosecond-orderkineticmodelwasthemostappropriatemodeltodescribetheadsorptionkinetics.TheadsorptionpercentageofAs(Ⅲ)increasedinthepHrangeof2–3whileitdecreasedwiththeincreaseofpH(3
简介:Understandingtheeffectsoforganicacids(OA)onthetransformationofFeandMntosurfacewaterfromtheweatheringcoalgangueisofgreatbene?ttoriskassessmentandremediationstrategiesforcontaminatedwaterandsoil.BasedontheinvestigationonsurfacewaterinthecentralcoaldistrictsoftheGuizhouProvince,18watersampleswerecollectedforheavymetalanalysis.TheresultsindicatedthatthepHvalueofsurfacewaterislow(3.11–4.92),andFeconcentration(1.31–5.55mgL-1)andMnconcentration(1.90–5.71mgL-1)were,onaverage,10.86and34.33timesthelimitofSurfaceWaterQualityStandards,respectively.InordertoevaluatetheeffectsoftheOAonthedissolutionofFeandMnfromtheweatheringcoalgangue,columnelutionandbatchleachingexperimentswereconducted.Theresultsshowthatthelowmolecularweightoforganicacids(LMWOAs,i.e.,oxalic,tartaric,malicandcitricacids)andfulvicacidssigni?-cantlyacceleratedthedissolutionofFeandMn;inaddition,whentheconcentrationofOAreached25mmolL-1,theconcentrationsofFe,andMnwere1.14–67.08and1.11–2.32timesashighasthosein0.5mmolL-1OA,respectively.Furthermore,themigrationofFeandMnwassigni?cantlyin?uencedbythepHandEh,especiallyforFe;theionMnwasdissolvedfromtheganguemoreeasilythantheionFeinthecolumnleaching,whichwascontrarytotheresultsofbatchleaching.
简介:1.IntroductionLightrareearthadditioncanremarkablyenhancetheservicelifeofFe-Cr-Alalloyforelectricalheatingelement,butitscontentinthealloymustbecontrolledbelowthelevelof0.1wt-%.Whenthecontentexceedsthat,theperformance
简介:Usinganewlow-temperatureprocess(<600℃),thepoly-SiTFTwasfabricatedbymetal-inducedlateralcrystallization(MILC).Anultrathinaluminumlayerwasdepositedona-Sifilmandselectivelyformedbyphotolithography.Thefilmswerethenannealedat560℃toobtainlaterallycrystallizedpoly-Sifilm,whichisusedasthechannelareaofaTFT.Thepoly-SiTFTshowedanon/offcurrentratioofhigherthan1×106atadrainvoltageof5V.TheelectricalpropertiesaremuchbetterthanTFTfabricatedbyconventionalcrystallizationat600℃.
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简介:采用单辊法制备了宽20mm、厚25μm的Fe78Si9B13合金带材,用绕带机将其绕制成环型磁芯,然后将磁芯进行退火处理,结果表明,随着退火温度的升高,Fe78Si9B13非晶磁芯的初始磁导率m、饱磁感应强度Bs和矫顽力Hc呈先增大后减小的趋势,当退火温度达到450℃时,磁化曲线呈现出一定的线性关系,即恒导磁特性。将经4500(=/100min退火的Fe78Si9B13非晶磁芯用环氧树脂进行封装后,环氧封装后μi和Bs减小,而Hc和损耗Ps增大,磁化曲线和损耗曲线的形状与封装前相同。
简介:ThemechanicalpropertiesofpressurelesssinteringFe-Si3N4bondedSiCandSi3N4bondedSiCwithsamemanufactureprocesshavebeencomparedinthispaper.TheoxidizingmechanismofFe-Si3N4bondedSiCceramicmatrixcompositehasbeeninvestigatedespeciallythroughTG-DSC(thermogravimetricanalysis-differentialscanningcalorimeter)experiment.DuringoxidationprocedurethemainreactionistheoxidationofSiCandSi3N4,SiO2whichformprotectingfilmtopreventfurtheroxidizing.AndresidualironinthesamplesbecomeFe2O3andFe3O4,theoxidationkineticsat1100~1300℃ofre-Si3N4bondedSiChasbeenstudiedespecially.Theweightgainperunitareaatinitialstagechangesaccordingtobeelinerule,inthemiddleaccordingtoconic,andinthelastoxidationperiodfollowsparabolarule.
简介:采用熔融玻璃净化技术研究了三元Fe35Cu35Si30合金的液相分离与枝晶生长特征。实验获得的最大过冷度为328K(0.24TL)。结果表明,合金在深过冷条件下具有三重凝固机制。当过冷度小于24K时,α-Fe相为初生相,凝固组织为均匀分布的枝晶。过冷度超过24K之后,合金熔体分离为富Fe区和富Cu区。在过冷度低于230K的范围内,FeSi金属间化合物为富Fe区的初生相;当过冷度高于230K时,Fe5Si3金属间化合物取代FeSi相成为富Fe区的初生相。随着合金过冷度的增加,FeSi相的生长速率逐渐升高,而Fe5Si3相的生长速率将逐渐降低。在富Cu区,初生相始终为FeSi金属间化合物。能谱分析表明,富Fe区和富Cu区的平均成分均已严重偏离初始合金成分。
简介:Al-inducedlateralcrystallizationofamorphoussiliconthinfilmsbymicrowaveannealingisinvestigated.ThecrystallizedSifilmsareexaminedbyopticalmicroscopy,Ramanspectroscopy,transmissionelectronmicroscopyandtransmissionelectrondiffractionmicrography.Aftermicrowaveannealingat480℃for50min,theamorphousSiiscompletelycrystallizedwithlargegrainsofmain(111)orientation.Therateoflateralcrystallizationis0.04μm/min.Thisprocess,labeledMILC-MA,notonlylowersthetemperaturebutalsoreducesthetimeofcrystallization.ThecrystallizationmechanismduringmicrowaveannealingandtheelectricalpropertiesofpolycrystallineSithinfilmsareanalyzed.ThisMILC-MAprocesshaspotentialapplicationsinlargeareaelectronics.
简介:研究流变压铸工艺参数浇注温度、振动频率和蛇形通道弯道数量对Al-30%Si合金的显微组织和力学性能的影响。流变压铸过程中的半固态Al-30%Si合金浆料采用振动蛇形通道浇注工艺制备。实验结果表明:浇注温度、振动频率和通道数量对Al-30%Si合金显微组织和力学性能的影响较大。在浇注温度为850°C、通道弯道数量为12和振动频率为80Hz的条件下,流变压铸工艺制备的样品组织的初生硅晶粒被细化成平均粒径约为24.6μm的块状颗粒;此外,流变压铸样品的抗拉强度、伸长率和硬度分别为296MPa、0.87%和HB155。因此,振动蛇形通道浇注工艺能有效地细化组织中的初生Si晶粒。初生Si晶粒的细化是流变压铸样品力学性能改善的主要原因。