简介:以无水FeCl,和双硫腙为原料,通过溶剂热法得到分散均匀的棒状含铁前驱体,将该前驱体在400℃煅烧3h后制成管状氧化铁。X射线衍射仪(XRD)和环境扫描电镜(ESEM)的研究结果表明:所得管状氧化铁为六方相(α-Fe2O3,1的一维微米管,其平均直径约为2岬、长度约为10~20μm。傅立叶变换红外光谱仪(FT-IR)所测数据表明,该产物氧化铁表面吸附有部分SO42-离子;而紫外-可见光谱仪(uv-vis)的数据分析发现,其紫外最大吸收k。;约为489nm,带宽吸收约在566.2nm处,间接禁带宽度和直接禁带宽度分别为1.97eV和2.189eV,与文献报道值接近。
简介:Aconoscopicholography-based3Dmeasurementsystemforanalyzingthedefectsonthesurfaceofsteelplateswasintroducedinthispaper.Thehardware,whichisautomatedthroughsoftware,performssamplingofthesteelplatesurface.Throughthesoftwareinterface,point-clouddataofthesteelplatesurfaceareobtainedandreconstructedtoforma3Dimageofthesteelplatesurface.Thesoftwareallowsautomaticanalysisofsteelplatesurfacedefectsthroughidentificationofthebulgesanddepressions.Inaddition,thesoftwarecanalsoautomaticallycalculatethedefectinformation,suchasthedeepestpoint,volume,openingarea,openinglength,andsoon,therebydeterminingthedefectsize.Theresultsdeterminedbythis3Dmeasurementsystemwerefoundtobeingoodagreementwiththeactualvalues.
简介:Au/TbMnO3/YBa2Cu3O7-xcapacitorswerefabricatedonSrTiO3substratesbypulselaserdepositiontechnique,ofwhichelectricpropertieswereinvestigatedinthetemperaturerangefrom25to300K.Bothcurrent-voltagecharacteristicsandjunctionresistanceswithbiasvoltagesshowedremarkabletemperaturedependence,inwhichobviousthermallyexcitedrelaxationprocesseswerefoundbetween150and200K.Atthetemperatureslowerthantheactivationprocess,theleakagecurrentsofthecapacitorswerestudied.Interestingly,athighelectricfield,themechanismoftheleakagewasPoole-Frenkelemission.However,atlowelectricfield,theconductionwasnotOhmic,andideallnJ∝E1/4characteristicswereobserved.Analysisshowedthatthepossibleoriginwasrelatedtotheinherentinhomogeneousnatureofactivationlesspercolatingtransport.
简介:采用DH.2080型超音速等离子设备将粒度53~106lam的高铝铜合金粗粉喷涂到45”钏表面制备涂层。在高铝铜合金粉术中加入微量元素Ce和B,研究Ce和B对高铝铜合金粗粉的超音速喷熔性能以及涂层组织结构的影响。结果表明:末加入元素Ce和B的涂层氧化严重,尤其是在界面处聚集大量氧化物,涂层和基体不能实现有效结合,涂层中较多的氧化物和孔隙隔离层流片熔结,并且涂层成分偏析严重。加入微量稀土元素Ce和B后,喷熔层组织细小均匀,成分分布均匀,涂层氧化程度大大减小,涂层和基体结合良好。Ce和B的加入还可改变涂层组织相的彤成规律,即由原来的非平衡结晶方式转变为平衡结晶方式。此外,Ce和B的加入使涂层硬度由362HV提高到432HV。