简介:二维(2D)有multilayered质地的碳/碳(C/C)composites,特别与不同厚度高度粗糙(HT)pyrocarbon层,被等温的、等压的化学蒸汽渗入(CVI)准备技术。C/Ccomposites的机械性质上的矩阵微观结构的影响被极化的轻显微镜学调查,扫描电子显微镜学和三点的弯曲测试。结果证明有多层粗糙的pyrocarbon矩阵的样品与纯媒介粗糙的结构比那件拥有更高曲折的力量,它被归因于多重裂缝偏转并且在HT层以内的在不同粗糙的pyrocarbon层之间并且在亚层之间的界面的滑动。HTpyrocarbon层的厚度的增加改进样品的粘性并且在伪塑料行为显示破裂。
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简介:采用溶胶-凝胶(Sol-gel)法和旋涂法在单晶硅片表面制备了5%(摩尔分数)Er3+掺杂的Yb2Ti2O7薄膜.采用X射线衍射仪(XRD)和扫描电子显微镜(SEM)对薄膜的相结构和表面及截面形貌进行了表征,通过荧光光谱仪检测了薄膜的上转换发光特性.结果表明:Ep+掺杂的Yb2Ti2O7薄膜为单一面心立方Yb2Ti2O7相结构,薄膜表面较光滑平整,颗粒尺寸约为80nm.976nm半导体激光器(LD)激发Er3+掺杂的Yb2Ti2O7薄膜获得了较强的绿色、红色和红外上转换发光,分别对应于Er3+的2H11/2/4S3/2→4I15/2、4F9/2→4I15/2和4S3/2→4I13/2跃迁.Er3+掺杂Yb2Ti2O7薄膜的绿色和红色上转换发光均为双光子吸收过程.Er3+掺杂Yb2Ti2O7薄膜和粉末的上转换发光光谱还出现了绿色和红色上转换发光强度的变化.
简介:Nd_2Zr_2O_7isbeingexploredasanalternatethermalbarriercoating(TBC)materialforoperatingabove1300°C,andgreatefforthasbeenmadetoenlargeitsthermalexpansioncoefficient(TEC)andimproveitstoughness.Inthisstudy,Sc_2O_3wasdopedtoNd_2Zr_2O_7.Thephasestructure,TECsandtoughnessof((Nd_(1-x)Scx))_2Zr_2_O7(x=0,0.025,0.05,0.075,0.1)compoundswereinvestigated.((Nd_(1-x)Scx))_2Zr_2_O7(x=0,0.025,0.05,0.075)exhibitedpyrochlorestructure,while((Nd_(0.9)Sc_(0.1)))_2Zr_2O_7consistedofpyrochloreandfluoritephases.WiththeincreaseoftheSc_2O_3content,theorderingdegreeofthepyrochloreinthecompoundsdecreased.In((Nd_(1-x)Scx))_2Zr_2O_7series,((Nd_(0.925)Sc_(0.075)))_2Zr_2O_7exhibitedthelargestTEC,whilethetoughnessofthecompoundsincreasedwithincreasingtheSc_2O_3content.Therelatedmechanismswerediscussedbasedonthecrystalstructureanalysis.ConsideringtheTECandtoughness,10mol%Sc_2O_3wassuggestedastheoptimaldopingcontentforNd_2Zr_2O_7ceramic.
简介:有关于30-50nm的谷物尺寸的nanocrystallineMg2Si(n-Mg2Si)的Densification行为被hot-pressing在显示的400°C.The结果调查n-Mg2Si的那个thedensification过程展出了三线性segments:p<0.3GPa,0.3GPa
1.2GPa由Heckel决定了公式,在哪个之中在高压力范围p>1.2GPa的第三个快增加片断很少在常规纹理粗糙的polycrystallinematerials.Nevertheless被报导了,在调查的整个压力范围(0.125-1.500GPa),n-Mg2Si的densificationbehavior能是Kawakita公式p/C=(1/a)描述的井有在对协议的起始的孔的好同意的constanta=0.452的p+1/(ab)。
简介:Basedonthedifferenceofhydroxygroupconfigurationondifferentplanesofα-Fe2O3nanoparticles,usingthespecialadsorptionandcoordinationofphosphateonthe(001)planeofα-Fe2O3,well-crystallizedandwelldispersedα-Fe2O3nanodiskswithdiameterof150–200nmandthicknessof40–80nmweresynthesizedviaahydrothermalmethod.Themagneticpropertiesofsynthesizednanodiskswereinvestigated.Itwasfoundthatthenanodiskspossessedasaturationmagnetization(Ms)of0.38emu/g,aremanentmagnetization(Mr)of0.031emu/gandacoercivityof452.91Oeatroomtemperature.TheMrandcoercivityofsynthesizedα-Fe2O3nanodisksarehigherandtheMsislowerthanthoseofotherpreviouslyreportedα-Fe2O3nanostructures.
简介:HfB2具有高熔点(3250℃)和高硬度(29GPa),成为颇具潜力的超高温材料。目前研究较多的是HfB2-SiC复合材料。主要介绍了HfB2-SiC复合材料的常用制备方法,包括热压烧结、放电等离子体烧结、化学气相沉积等,并展望了HfB2-SiC超高温材料的发展趋势。
简介:Fe-Ni-Almixturesashot-pressingsinteringadditivetoTitaniumdiboride(TiB2)werestudied.ItisfoundthatliquidalloyformedunderhightemperaturehardlyhaseffectsonthedensificationbehaviorsofTiB2-independent.Fe-Ni-AladditivejustworksasfillerbetweenTiB2particlesanddoesnotchangetheTiB2-independentsinteringbehaviors.PressingmodehasagreateffectontheliquidflowingbetweenTiB2particles.Multiple-stepspressingmodewillgivemoretimeandspacefortheliquidflowingandimprovetherelativedensityofTiB2-Fe-Ni-Alcermet.
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