简介：１ＩｎｔｒｏｄｕｃｔｉｏｎＴｈｅｅｌｅｃｔｒｏｌｙｔｉｃｍａｎｇａｎｅｓｅｄｉｏｘｉｄｅ（ＥＭＤ）ｉｓｗｉｄｅｌｙｕｓｅｄｉｎｚｉｎｃｍａｎｇａｎｅｓｅａｎｄｌｉｔｈｉｕｍｍａｎｇａｎｅｓｅｃｅｌｓ．Ｉｔｗａｓｅｓｔｉｍａｔｅｄｔｈａｔｔｈｅ...

简介：Permanentmagneticmaterialscapableofoperatingathightemperatureupto500°Chavewidepotentialapplicationsinfieldssuchasaeronautics,space,andelectroniccars.SmCoalloysarecandidatesforhightemperatureapplications,sincetheyhavelargemagnetocrystallineanisotropyfield(6–30T),highCurietemperature(720–920°C),andlargeenergyproduct([200kJám-3)atroomtemperature.However,thehighestservicetemperatureofcommercial2:17typeSmComagnetsisonly300°C,andmanyeffortshavebeendevotedtodevelopnovelhightemperaturepermanentmagnets.ThisreviewfocusesonthedevelopmentofthreekindsofSmCobasedmagnets:2:17typeSmComagnets,nanocrystallineSmComagnets,andnanocompositeSmComagnets.Theoxidationprotection,includingalloyingandsurfacemodification,ofhightemperaturepermanentmagnetsisdiscussedaswell.

简介：ＩｎｔｒｏｄｕｃｔｉｏｎＩＭＩ８２９ｔｉｔａｎｉｕｍａｌｏｙｉｓａｋｉｎｄｏｆｈｉｇｈｔｅｍｐｅｒａｔｕｒｅｎｅａｒαａｌｏｙ．Ｉｔｓｓｅｒｖｉｃｅｔｅｍｐｅｒａｔｕｒｅｉｓｕｐｔｏ５８０℃．ＩｔｈａｓｂｅｅｎｕｓｅｄｉｎＲＢ２１１５２５Ｅ４ｅｎ...

简介：因为它的吸引人的表演，超导的nanowire单身者光子察觉者(SNSPD)在极端紫、可见、在红外线附近的波长引起许多注意，并且它能在量信息技术是普遍的。然而，怎么增加罐头戏剧性地增加SNSPD的量效率的吸收仍然是一个顶研究问题。在这研究，洞综合的SNSPD的光吸收比上的事件媒介和洞材料的效果系统地用有限元素的方法被调查。模拟结果为光子表明那极化的平行到nanowire取向尽管nanowire的最大的吸收比对洞材料感觉迟钝，事件媒介的折射索引什么时候减少，确实增加。为垂直地极化的光子，事件媒介和洞材料起重要作用，并且吸收比曲线作为洞材料增加的折射索引接近平行案例。把结果基于这些，有能为平行、垂直的光子提高吸收比的前面照明结构的二洞综合的SNSPD被建议。最后，与高吸收比认识到极化无关的SNSPD的一个图案被介绍。

简介：Na离子电池由于他们的低费用和自然许多Na资源为大规模精力存储系统被认为一种有希望的选择到Li离子电池。大努力全球正在做为Na离子电池开发高效的电极材料，它为Na离子电池是批评的。这评论基于Na存储机制为Na离子电池提供阳极材料的全面概述：基于插入的材料，基于合金的材料，基于变换的材料和器官的composites。并且我们总结那些阳极材料的Na存储机制并且讨论他们的失败机制。而且，与那些阳极联系的问题和挑战被指出，并且可行策略为设计高效的阳极材料被建议。根据研究的当前的状态，尽管实质的进步被获得了，为为Na离子电池的合适的阳极材料的搜索仍然是挑战性的。不过，我们相信高效的Na离子电池在不久的将来将为在大规模精力存储系统的实际应用程序是有希望的。

简介：Theeffectofsolidificationrateonthemicrostructuredevelopmentofnickel-basedsuperalloyunderthetemperaturegradientof500K·cm-1wasstudied.Theresultsshowthat,withtheincreaseofdirectionalsolidificationratefrom50to800μm·s-1,boththeprimaryandthesecondarydendritearmspacingsofthealloydecreasegradually,andthedendritemorphologiestransformfromcoarsedendritetosuperfinedendrite.Thesizesofallprecipitatesinthesuperalloydecreasegradually.Themorphologyof...

简介：Al-Mn阶段的形态学上的高磁场的效果被调查。这被发现向性和艾尔6Mn猛抛阶段在高磁场下面变得常规。越强壮高磁场，越多常规艾尔6Mn猛抛阶段。艾尔6Mn猛抛阶段能在不同温度通过Al-Mn合金的熄灭的微观结构的观察在高磁场下面产生面向的排列和聚集。同时，艾尔6Mn与高磁场的增加的功能时间一起连续地分阶段执行增加。X光检查衍射也显示那艾尔6Mn阶段在高磁场下面产生明显的向性。聚集的进程和艾尔6Mn猛抛在在取向以后的高磁场的函数下面的阶段被分析并且讨论。

简介：Thethermaldiffusioncoefficient,thermalconductivity,andthermalexpansioncoefficientofCuCralloypreparedbyinfiltrationweremeasuredbythermalconstanttesteranddilatometerbeforeandafterhighpressureheattreatment,atthesametime,theeffectofhighpressuretreatmentonthethermalphysicalpropertiesofCuCralloywasdiscussedbytheanalysisofitsmicrostructure.TheexperimentalresultsshowthathighpressureheattreatmentcanincreasethethermaldiffusioncoefficientandthermalconductivityofCuCralloy,butitchangesslightlyinthepressurerangeof1–6GPa.Asforthermalexpansioncoefficient,whenthetemperatureishigherthan130°C,itisobviouslyhigherthanthatofthealloywithouthighpressuretreatmentafter1GPapressuretreatment,andthehigherthetemperatureis,thelargertheirdifferencesare.

简介：PhasesandmicrostructuresofthreehighZncontainingAl–Zn–Mg–Cualloyswereinvestigatedbymeansofthermodynamiccalculationmethod,opticamicroscopy（OM）,scanningelectronmicroscopy（SEM）energydispersivespectroscopy（EDS）,X-raydiffraction（XRD）,anddifferentialscanningcalorimetry（DSC）analysis.TheresultsindicatethatsimilardendriticnetworkmorphologiesarefoundinthesethreeAl–Zn–Mg–Cualloys.Theas-cast7056aluminumalloyconsistsofaluminumsolidsolution,coarseAl/Mg（Cu,Zn,Al）2eutecticphases,andfineintermetalliccompoundsg（MgZn2）.Bothofas-cast7095and7136aluminumalloysinvolvea（Al）eutecticAl/Mg（Cu,Zn,Al）2,intermetallicg（MgZn2）,andh（Al2Cu）.Duringhomogenizationat450°C,fineg（MgZn2）candissolveintomatrixabsolutely.Afterhomogenizationat450°Cfor24h,Mg（Cu,Zn,Al）2phasein7136alloytransformsintoS（Al2CuMg）whilenochangeisfoundin7056and7095alloys.ThethermodynamiccalculationcanbeusedtopredictthephasesinhighZncontainingAl–Zn–Mg–Cualloys.

简介：各向异性的MnBi/NdFeB(0wt%的MnBi内容，20?wt%，40?wt%，60?wt%，80?wt%，并且100?wt%)混合结合的磁铁被用MnBi粉末和再结合(HDDR)NdFeB粉末塑造压缩准备。在房间温度的磁性的大小证明与MnBi内容增加，MnBi/NdFeB混血儿的磁性结合了磁铁都逐渐地减少，当混合磁铁的密度几乎线性地改善时。在293-398的一个温度范围?K，混合磁铁的coercivity温度系数从0.59逐渐地改善?%比较。建模和频率与二低角落频率认为压力消除阀门是一个秒顺序系统是合理的试验性的结果表演。PID控制，死了的乐队赔偿控制和鷸?鷸？？

简介：试验性的工作被承担用一个双轴的泥浆制造者在AZ91D合金的团结微观结构上调查旋转速度的效果。然后数字的模拟被用来在提起的流动和melt的温度地上调查旋转速度的效果。增加旋转速度能产生实质的谷物精炼，这被发现，它能被归因于极其一致的温度和潜力在散混合下面在体积液体成核代理人聚类的分散的任何东西引起的有效成核率的增加。

简介：AnimprovedmethodhasbeendevelopedforenrichinganddeterminingtraceIn,Pt,Sn,Co,Hg,Pb,Ni,Bi,Pd,CuandAginhigh-puritygallium.SamplewastreatedbyPDM（partialdissolutionofmatrix）withHCl（11mol/L）-HNO3（0.5mol/L）toasmallresidueofwhichGawasthenremovedbyextractionwith1mlisopropylether.TheconcentratedimpuritiesweredeterminedbyAESprocedure.Therecoveriesfortheele-mentsattherangeof0.02～0.2μgare95～103％;therelativestandarddeviationsfordeterminedimpuritiesoverarangeofn.10-7～n·10-8％are4.3～12％;thedetectionlimitofmostelementscanreachn·10-7～n·10-8％levelwiththeexceptionofHgandPt.Thismethodhasbeensuccessfullyusedtoanalyzemanysam-plessentbyfactoriesandinstitutes.

简介：Theeffectsofisothermalholdingprocessonthemicrostructureevolutionofsemi-solid7075strengthaluminumalloyproducedbytherecrystallisationandpartialremelting(RAP)processwereinvestigated.Tensilemechanicalpropertiesofas-receivedandthixoformedalloysatroomtemperaturewereexamined.Theresultsshowthatthemicrostructureofas-receivedalloyexhibitsremarkableorientationalongthedeformationdirection.Withtheincreaseofisothermalholdingtime,thesolidparticlegrainsizecontinuouslyincreasesandthedegreeofspheroidizationalsoimproves.Coalescencemechanismisdominantwhenreheatedat595°CandOstwaldripeningmechanismisdominantwhenreheatedat615°Cinthesemi-solidstate.Alowercoarseningrateisobservedfor615°C(coarseningrateK=391μm3s-1)comparedwiththecoarseningratefor595°C(coarseningrateK=501μm3s-1).TheRAP7075aluminumalloycanbesuccessfullythixoformedandthefillingofcomponentsisgoodafterthixoforming.Thethixoformedcomponentsexhibitfavoritemechanicalproperties.

简介：Thixoforging是半固体金属在高稳固的部分处理的一种类型(0.7

简介：IsothermalcompressionofaTi-5.6Al-4.8Sn-2.0ZralloywasconductedonaThermecmaster-Zsimulatoratthedeformationtemperaturesrangingfrom960to1060°C,thestrainratesrangingfrom0.001to10.0s-1,andthemaximumheightreductionof70.0%.Inthetwo-phaseregionoftheTi-5.6Al-4.8Sn-2.0Zralloy,thevolumefractionofαphasedecreaseswithanincreaseindeformationtemperature,butthegrainsizehasaslightvariationwithdeformationtemperature.ThestrainrateaffectsbothmorphologiesandgrainsizeoftheαphaseintheisothermalcompressionoftheTi-5.6Al-4.8Sn-2.0Zralloy.Theoptimalheightreductionalsocontributestothesmallandwell-distributedαphaseintheisothermalcompressionofTi-5.6Al-4.8Sn-2.0Zralloy.

简介：Anisotropicpowderwaspreparedwithprecursor(NdDy)-(FeCoNbCu)-Bsinteredmagnetsbyhydrogendecrepitation,desorption,andsubsequentannealingtreatment.Thehydrogendesorptionwasperformedinmagneticfieldsof0,1,3,and5T.Theorientationoftetragonalphasegrainsofthepowderwasevaluatedfromthehysteresisloopsmeasuredbyextractionmagnetometer.Residualhydrogencontentofthepowderwasevaluatedbythermal-magneticanalysis.ThepowderwithHcj,Br,and(BH)maxof1138kA·m-1,1.029T,and172.5kJ·m-3,respectively,wasachievedundertheconditionofthemagneticfieldof3T.Magneticpropertiesofthepowder,especially,theremanenceofthepowder,areenhanceduponmagneticfields,whichisduetobetterorientationofpowderparticlesandlessresidualhydrogeninthepowderresultedfromthemagneticfieldduringthehydrogendesorptionprocess.

简介：电子结构和在不同压力(260，320，400和600GPa)的新奇Na-hP4高压力阶段的光性质被密度调查有为交换和关联精力的概括坡度近似(GGA)的功能的理论(DFT)。沿着在Brillouin地区，状态(DOS)的密度和状态(PDOS)的部分密度的更高的对称斧子的乐队结构被介绍。乐队差距增加，精力乐队膨胀到某程度，压力增加。绝缘的功能，反射率，精力损失功能，光吸收系数，光传导性，折射索引和扑灭系数为在不同压力讨论Na-hP4高压力阶段的光性质被计算。

简介：Usingorganicaquaregia,arecentlydiscoveredpowerfulorganicleachingagent,aneffectiveprocessofrecoveringPtdirectlyfromPt-Aubimetallicnanoparticleswasdemonstrated.ThepuritiesofthePtrecoveredfromamixtureofAuandPtnanoparticlesandfromPt-Aucore-shellnanoparticlecatalystareashighas(99.49±0.22)％,and(95.02±0.08)％,respectively.Thenovelrecoveryprocesspromisesapplicationsincatalysisindustry.

简介：nano石墨表/氧化铝composites被一个灵巧的受精减小过程在situ准备。composites的微观结构被X光检查衍射(XRD)分析，并且在减小以后的最后的阶段作文是艾尔2O3,金属Fe和石墨水晶。扫描电子显微镜学(SEM)图象证明Fe的粒子尺寸是大约20?nm，和石墨的lamellae厚度是大约30?nm。然后，绝缘的性质和composites的传导性的机制在0.01-1.00的频率范围试验性地被调查?由阻抗分析器的GHz。composites的介电常数的真实部分与Fe3+集中增加的结果表演，由于在Fe和艾尔23和薄片状的石墨形成的三维的网络。因此，悦耳的microtopography和nano石墨表/氧化铝composites的电的参数能被改变Fe3+集中认识到。

简介：β-phase上的超声的处理的效果(Mg17Mg-9.0wt.%Al合金的艾尔12)形态学被学习。结果证明与在Mg-9.0wt.%Al团结期间采用的高紧张的超声的颤动，在营舍的全部生气的节的β-phase显著地被精制并且也变化了从对不连续的形态学连续。球形的β-phase在与高紧张的超声的颤动对待的营舍的团结期间被形成。