简介:1IntroductionTherareearthcobaltalloyshavethepotentialformakingthemagneticandmagnetoopticalmaterials.Sofar,therareearthcobaltalloyfilmsaresubstantiallyproducedbysputteringorvacuumplating.Ifsuchfilmsarepreparedbyelectrodepositioninstead,productionefficiencywouldbeimprovedandthecompositionofthealloycouldbecontrolled.Becausetheoxidationreductionpotentialsofrareearthelementsareverynegative,organicsolventsmaybeusedaselectrolyticmedia.ElectrodepositionofGdCoandSmCoinorganicsolutionshasbeenreporte...
简介:多晶的La1?xKxCoO3(0x0.2)稀土元素cobaltates被一个答案燃烧方法作为燃料用glycine综合了。综合陶器的材料被粉末X光检查衍射(XRD)描绘,扫描电子显微镜学(SEM),Fourier变换红外线的光谱学(FTIR),和磁性的大小并且为物理性质学习了,例如photocatalytic活动。与XRD一起的FTIR大小证明在做的10%K以外的阶段被杂质的小数量伴随。化学滴定为系统的Co3+-Co4+混合原子价显示出Co4+和报道的存在。父母LaCoO3在低温度显示出纺纱眼镜转变,而做的样品从纺纱眼镜行为显示出转变到在K的进步的做上的顺磁的订。这些陶艺的混合售票员自然作为稳固的氧化物的可行候选人放他们燃料房间(SOFC)应用。
简介:研究保温时间对0.98(K0.5Na0.5)NbO3-0.02LaFeO3(缩写为0.98KNN-0.02LF)无铅陶瓷相结构、显微组织、介电性能及铁电性能的影响。所有烧结样品均为纯的伪立方钙钛矿相,保温时间对相结构影响不大。随着保温时间的延长,样品的XRD衍射峰逐渐增强,并且向低角度移动。SEM观察结果显示,随着保温时间的延长,陶瓷样品的致密性提高,晶粒异常长大并出现孪晶结构。介电温谱表明,随着保温时间的延长,介电性能有所降低。电滞回线结果表明,2Pr随着保温时间的延长而增大的程度有所减小,而2E略有增加。在1150℃烧结2h得的到陶瓷的性能较优:εr=2253,tanδ〈5%,2Pr=34.51μC/cm2,2Ec=5.07kV/mm。
简介:ElectrocrystallizationMechanismofTungsteninMoltenKF-B_2O_3-K_2WO_4WenZhenhuanandLiGuoxun文振环,李国勋(GeneralResearchInstiiuteforNo...
简介:Anewhardfacingprocess,reactivebrazecoatingprocess(RBCC)wasstudied,and(TiC+Cr3C2)/FecompositecoatingswerepreparedbyRBCCusingcarbon,Cr3C2,iron,ferrochromiumandtitaniumpowderastherawmaterialsinvacuumbrazefurnace.TheresultsshowthatTiCisin-situsynthesizedinthecoatings.ThemethodsofintroducingCr3C2havegreateffectsonthedistributionofTiC.AddingCr3C2directlytotherawmaterialsforcoatings,fineTiCparticlesaggregateintodiscoidsparalleltothecoatingsurface,whereas,in-situsynthesizingCr3C2incoatings,theaggregationsofTiCarelumpish.Duringbrazecoating,Cr3C2particlesdirectlyaddeddissolveandprecipitatetobecomeneedle-shaped.Thecoatingshaveanevenandsmoothsurfaceandarecombinedwiththeirmildsteelsubstratesbyametallurgicalbonding.
简介:这份报纸在极其细小的颗粒的WC-12%Co合金的磁性、机械的性质上处理codopedVC/Cr3C2和sintering温度的效果。结果证明在最佳的比例的做的VC/Cr3C2的synergistic行动提高坚硬和合金的横向的破裂力量(TRS),与更多的同类的微观结构。当合金是在1430点的sintered时?C并且与0.5%Cr3C2/0.2%VC,TRS到达3786MPa,坚硬是91.7HRA和比0.6m小的谷物尺寸。谷物生长上的数字分析在sintering过程期间证明在WC谷物边界并且Cr3C2溶解在公司上猛抛的两VC分阶段执行减少固体/液体的界面的精力,溶解和降水的过程极大地被延迟,WC谷物变粗被禁止。
简介:研究VC/Cr3C2对Ti(C,N)基金属陶瓷微观组织和力学性能的影响。利用光学显微镜、X射线衍射仪和扫描电镜结合能谱仪研究微观组织。测试横向断裂强度、硬度和断裂韧性等力学性能。结果表明:微观组织中存在"黑芯-灰壳"和"白芯-灰壳"结构;由于添加VC/Cr3C2,硬质相晶粒变细,添加0.75VC/0.25Cr3C2的金属陶瓷晶粒细化最明显;黑芯随着VC添加量的增加而变细,壳随着Cr3C2添加量的减少而变厚;孔隙率随着VC/Cr3C2中VC的量增加而增大;横向断裂强度和硬度均升高,并且均在添加0.25VC/0.75Cr3C2时达到最大值;按适当的VC和Cr3C2添加量比例添加VC/Cr3C2可以有效地使断裂韧性升高,并在添加0.5VC/0.5Cr3C2时取得最大值。
简介:作为材料的重要性质之一,硬度一直受到人们广泛的重视和研究。Cohen和Liu利用第一性原理计算从理论上预言了一种超硬性能的新材料β—C3N4,其体积弹性模量超过金刚石。CVO3组采用微波等离子体化学气相沉积法(MPCVD),用高纯N2(99.999%)和CH4(99.9%)作反应气体,在单晶Si(100)和多晶Pt衬底上沉积碳氮薄膜,开展了对β-C3N4薄膜的制备与表征的探索性研究,取得了一定的进展。
简介:TheeffectofAl-3Ti-0.2C-5Sr(wt%)grainrefinerontherefiningperformanceandmodificationofA356alloywasinvestigatedusingopticalmicroscope(OM).ThemorphologyandcrystalstructureofternaryAl-Ti-SrphasesinAl-3Ti-0.2C-5Srrefinerwereanalyzedbyscanningelectronmicroscopy(SEM)andtransmissionelectronmicroscopy(TEM).TheresultsshowthattheternaryAl-TiSrphasesinAl-3Ti-0.2C-5SrrefinercanpromotethegrainrefiningefficiencyofA356alloy.TheternaryAl-Ti-Srphasesco-existintwomorphologies,i.e.,blocky-likephaseandsurround-likephase,besides,whichbothhavethesamechemicalcompositionofAl_(34)Ti_3Sr.ThecrystalstructureofAl_(34)Ti_3Srisface-centeredcubic,andthelatticeparameterisdeterminedtobeabout1.52nm.
简介:TheXRPD(X-raypowderdiffractometry)patternsofsiliconpowderwithaunitcellstructureofdiamondweredeterminedfrom298to1473K.LatticeparametersofSilinearlyincreasewithtemperature.Thethermalshiftsofthepositionsofallreflectionpeaksarelinearlycorrelatedwiththetemperature.Thecoefficientsoftheintrinsiclinearthermalexpansionandvolumetricthermalexpansionweredeterminedas3.87×10-6/Kand1.16×10-5/Krespectively.ItindicatesthatSiisstillasuitablestandardintheXRPDmethodathightemperatures.