简介:从卷过程到退火的质地进化440MPa等级忍受Nb高力量的过程如果钢(IF-HSS)被学习。而且,在在退火以后的钢表的厚度方向的不同的节的质地被调查。宏质地大小使用XRD证明在忍受NbIF-HSS的那块热滚动质地包括主要质地部件是的弱纤维和-fiber,{001}110,{111}110并且{111}112。它值得纤维骨骼线在热滚动以后形成了的笔记。在冷滚动期间,绝对最大值变到{111}112沿着沿着纤维的纤维和最大值变到{112}110。在退火的再结晶期间,过程,更弱的纤维和卷质地的更强壮的纤维寒冷转变了质地到退火的很强壮的纤维。当在1/4节的质地紧张比表面和中央部分的高时,在退火以后,到沿着厚度的中央部分的从表面的主要部件为纤维和-fiber,显示一样的字符。
简介:Er^3+-dopedSrBi4Ti4O15-Bi4Ti3O12(SBT-BIT-xEr^3+,x=0.00,0.05,0.10,0.15and0.20)inter-growthceramicsweresynthesizedbythesolid-statereactionmethod.Structural,electricalandup-conversionpropertiesofSBT-BIT-xEr^3+wereinvestigated.Allsamplesshowedasinglephaseoftheorthorhombicstructure.RamanspectroscopyindicatedthattheEr^3+substitutionforBi^3+atAsitesofthepseudo-perovskitelayerincreasesthelatticedistortionofSBT-BIT-xEr^3+ceramics.ThesubstitutionofBi^3+byEr^3+leadstoadecreaseofdielectriclosstanδandanincreaseofconductivityactivationenergy.Piezoelectricconstantd33wasslightlyimproved,butdielectricconstantwasdecreasedwiththeEr^3+doping.TheSBT-BIT-xEr^3+ceramicwithx=0.15exhibitstheoptimizedelectricalbehavior(d33~17pC/N,tanδ~0.83%).Moreover,twobrightgreen(532and548nm)andonered(670nm)emissionbandswereobservedunderthe980nmexcitation.Optimizedemissionintensitywasalsoobtainedwhenx=0.15fortheSBT-BIT-xEr^3+ceramic.Therefore,thiskindofceramicsoughttobepromisingcandidatesformultifunctionaloptoelectronicapplications.
简介:四氧化四银(Tetrasilvertetxoxide,Ag4O4)是一种具有活跃电子、反磁性和半导电性的分子晶体,可与表面裸露的蛋白质-N基(-NH,-NH2)和-S基(S-S,-SH)发生热力学吸附并触发氧化还原反应,改变微生物蛋白质构象而起到抑菌效果,具有潜在应用价值。为了开发基于纳米高价银氧化物的生物医用材料,采用软化学方法制得Ag4O4,并利用扫描电镜、纳米粒度与电位分析仪、X射线衍射仪、热分析仪和激光显微拉曼光谱仪对其理化性质进行了表征,利用抑菌圈法和液体光电比浊法对其抗茵性能进行了评价。结果表明,实验制备的四氧化四银性质完全符合预期,抗茵性能优良,为进一步研制抗菌性能良好的医用材料提供了有益借鉴。
简介:1.IntroductionLightrareearthadditioncanremarkablyenhancetheservicelifeofFe-Cr-Alalloyforelectricalheatingelement,butitscontentinthealloymustbecontrolledbelowthelevelof0.1wt-%.Whenthecontentexceedsthat,theperformance
简介:Si3N4/TiCnanocompositeceramicshavebeenfabricatedbyhotpressingtechniquewithAl2O3andY2O3asadditives.TheresultsshowedthatwelldispersedcompositepowderwascarriedoutbyaddingdispersantandadjustingpHvaluesofsuspensions.RemarkableincreaseinflexuralstrengthatroomtemperatureswasobtainedbyaddingnanoparticlesinSi3N4matrixwith10%(wtpct)ofnano-Si3N4and15%ofnano-TiC.Theflexuralstrength,fracturetoughnessandhardnesswere1025MPa,7.5MPa·1/2and15.6GPa,respectively.Themicrostructuresofmaterialswereanalyzedbyscanningelectronmicroscopy(SEM)andtransmissionelectronmicroscopy(TEM),whichindicatedthatTiCnanoparticlesdistributeinthematrixandatthegrainboundaries.Accordingtothefractureform,lowcontentsofnanoparticlescouldrefinematrixgrainsandleadtothecrackdeflectionaswellascrackpinning.Themultiplexmicrostructurewasformedbymixingnano-Si3N4particles.Thecracktrajectoriesexhibitedcrackdeflection,rod-likegrainbridgingandpull-out.