简介:Microstructuresandmechanicalpropertiesoftransientliquidphase(TLP)bondedmagnesiummetalmatrixcomposite(MMC)jointsusingcopperinterlayerhavebeeninvestigated.Withanincreaseofbondingtimesfrom5minto50minatbondingtemperatureof510℃,theaverageconcentrationofcopperinthebondedzonedecreased,themicrostructureinthezonechangedfromCu,α-MgandCuMg2toα-Mg,CuMg2andTiC,andmechanicalpropertiesofthejointincreased.Theshearstrengthofthejointbondedat510℃for50minreached64MPaduetothemetallurgicalbondingofthejointandimprovingitshomogeneityofcompositionandmicrostructure.ItisfavorabletoincreasethebondingtimeforimprovingmechanicalpropertiesofTLPbondedmagnesiumMMCjoint.
简介:本文重点介绍开发高导热高耐热CEM-3覆铜板的技术背景、技术路线和技术成果。
简介:3层PE外防腐作业线,即能生产FBE、3PE、2PE、2PP的多功能涂敷作业线。技术水平高,科技含量较大,在我们设计出国产第一条生产线之前全都是进口作业线,投资相当昂贵。但我公司根据多年来设计的多条环氧粉末喷涂作业线的经验和PE侧向挤出的一些经验,又结合进口作业线,即国外同类作业线的技术参数进行分析,比较。根据国情认为有能力进行生产线设计。所以,国产第一条3PE生产作业线就从我们这里开始设计,选型配套,制造出一条全部国产化的3PE生产作业线,而且投资是进口的三分之一,性能和技术参数方面达到国外同类作业线水平,并稳定地、高质量地完成FBE、3PE近1500km管线的防腐施工任务。这里关于3PE多功能防腐作业线,如何设计及选型进行总结,供大家参考。
简介:BasedonthetechniqueforpreparingLaCl3viadirectpyrolysisofrareearthchloridesolution,ajetpyrolysisreactorwasdesignedandtheintra-reactortemperatureandchemicalreactionswerenumericallysimulatedusingcomputationalfluiddynamics(CFD)technique.Theresultsshowthattheflowratevariationatthefuelinletdoesnotlargelyaffectthetemperatureinthereactor,whiletheincreaseinexternalpressureatthematerialinletrapidlydecreasestheaveragetemperature,Venturitemperature,andoutlettemperature.TheCH4andO2insidethereactorarecombustedcompletely,andwhenthematerialinletpressureis\90Pa,theLaCl3isfullypyrogenated.ThecontentsofCO2,La2O3,andHClfluctuateneartheVenturitubeandfinallystabilize.La2O3contentattheoutletisinatop-to-bottomgradient.
简介:Thecorrosionbehaviorandanti-corrosionmechanismoftheZn-Ni-Al2O3compositecoatingwereinvestigatedbySEM,EDSandXPS.TheresultsindicatethatthecorrosiontypeoftheZn-Ni-Al2O3coatingsinneutral5wt.%NaClsolutionisuniformcorrosion.ThepresenceofcompactanduniformlydispersednanoaluminaparticlessubstantiallyinhibitsthecorrosionofZn-Ni-Al2O3compositecoatings.Intheinitialcorrosionstage,thecorrosiveproductsofZn-NimatrixformacompactZnCl2·4Zn(OH)2layer.Withthedevelopmentofcorrosion,somenanoaluminaparticlesareembeddedandformaNienrichmentlayer.InNienrichmentlayer,NipresentsasNiandNiO.
简介:通过微弧氧化法在新型医用近β钛合金Ti-3Zr-2Sn-3Mo-25Nb表面制备一层含Ca、P多孔薄膜,再将其在胺基化溶液中活化处理以在薄膜表面引入NH-2。借助XRD、SEM和EDS研究该多孔复合薄膜的组成和表面形貌,并通过模拟体液浸泡实验、体外细胞培养实验和动物体内植入实验研究经上述表面改性处理后的Ti-3Zr-2Sn-3Mo-25Nb合金的骨诱导活性。结果表明:该薄膜主要由金红石型TiO2和锐钛矿型TiO2组成,是一种含有Ca、P的陶瓷混合物;薄膜在模拟体液中具有很好的生物活性,成骨细胞能够很好地在薄膜上分化、生长;表面覆膜处理的Ti-3Zr-2Sn-3Mo-25Nb合金的体内骨诱导活性优于未处理的Ti-3Zr-2Sn-3Mo-25Nb合金的。
简介:晶体结构和加氢行为(La_(1-x)Mg_x)_3Al(x=0.1,0.2,0.3,和0.4)合金被调查。这被发现有x=的合金0.1La和第0.2consi(Mg,艾尔),La,和一个新奇阶段。新奇阶段作为La_2Al被决定。当Mg满足增加,La_2Al的数量减少,这被显示出。当x增加到0.3时,onlyLa(Mg,艾尔)并且La_2Al的小数量存在。当x是0.4时,La_2Al阶段消失,合金包含两La(Mg,艾尔)并且La(艾尔,Mg)_2洗阶段。(La_(0.9)Mg_(0.1))_3Al并且(La_(0.7)Mg_(0.3))_3Al合金能被氢的吸收在473K分解成LaH_3,MgH_2,和La_2Al_5。
简介:ThedosimetricphosphorsLi_3PO_4:M(M=Tb,Cu)wereproducedbymodifiedsolid-statemethod.ThestructuralandmorphologicalcharacterizationwascarriedoutthroughX-raydiffraction(XRD)andscanningelectronmicroscope(SEM).Additionally,thephotoluminescence(PL),thermoluminescence(TL)andopticallystimulatedluminescence(OSL)propertiesofpowderLi_3PO_4dopedwithTbandCuwerestudied.ItisadvocatedthatLi_3PO_4:CuphosphornotonlyshowshigherOSLsensitivity(25timesormore)butalsogivesfasterdecayinOSLsignalsthanthatofLi_3PO_4:Tb~(3+)phosphor.Theminimumdetectabledose(MDD)ofLi_3PO_4:M(M=Tb,Cu)phosphorsisfoundtobe21.69×10~(-3)and3.33×10~(-6)J·kg~(-1),respectively.InOSLmode,phosphorshowslineardoseresponseintherangeof0.02-20.00J·kg~(-1).InTLmode,sensitivityofLi_3PO_4:CuphosphorismorethanthatofLi_3PO_4:Tbphosphor.Thekineticsparameterssuchasactivationenergyandfrequencyfactorsweredeterminedbypeakshapemethod,andphotoionizationcrosssectionsofpreparedphosphorwerecalculated.
简介:有一致的杆形状的单斜晶的LaPO4nanostructures被一个简单大音阶的第五音胶化方法成功地综合了。过程包含形成同类,透明,metal-citrate-EDTA胶化先锋,由锻烧列在后面支持胶化先锋的热分解产出LaPO4nanoparticles。他们的形态学和结构被XRD,TEM,TG-DSC和HRTEM描绘。结果显示单个单斜晶的阶段LaPO4nanorods乐意地在800点被获得吗?在3h以内。而且,做Eu3+的LaPO4nanocrystals的光致发光(PL)描述被执行。在PL性质上做内容的锻烧温度和Eu3+的效果详细被详细描述。房间温度光致发光(PL)描述表明光亮度以及到5D0-7F2的5D0-7F1的紧张比率高度依赖于锻烧温度,并且Eu0.05La0.95PO4nanophosphor与最强烈的排放显示出相对有希望的PL表演。