简介:Carbon-coatedlithiummanganesesilicate(Li2MnSiO4/C)nanoparticlesweresynthesizedbypolyolprocess.X-raydiffraction(XRD)patternsoftheobtainedmaterialsexhibitagoodfitwiththatoftheLi2MnSiO4phase.Fieldemissionscanningelectronmicroscopy(FESEM)imagesoftheobtainedsamplesshowthattheparticlesizeisonlytensofnanometers.Thehighresolutiontransmissionelectronmicroscopy(HRTEM)analysisshowsthattheLi2MnSiO4nanoparticlesaresurroundedbyaverythinfilmofamorphouscarbon.Thecompositepreparedthroughpolyolprocessshowsgoodperformanceascathodematerialsinlithiumcellsatroomtemperature.ThechargecapacityoftheLi2MnSiO4/Csamplesis219mAh/g(about1.3Li+perunitformulaextracted),andthedischargecapacityis132mAh/g(about0.8Li+perunitformulainserted)inthefirstcycleinthevoltagerangeof1.5-4.8V.Agoodcapacitycyclingmaintenanceof81.8%after10cycleswasobtained.
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:Inthepresentstudy,artificialneuralnetwork(ANN)approachwasusedtopredictthestress–straincurveofnearbetatitaniumalloyasafunctionofvolumefractionsofaandb.Thisapproachistodevelopthebestpossiblecombinationorneuralnetwork(NN)topredictthestress–straincurve.Inordertoachievethis,threedifferentNNarchitectures(feed-forwardback-propagationnetwork,cascade-forwardback-propagationnetwork,andlayerrecurrentnetwork),threedifferenttransferfunctions(purelin,Log-Sigmoid,andTan-Sigmoid),numberofhiddenlayers(1and2),numberofneuronsinthehiddenlayer(s),anddifferenttrainingalgorithmswereemployed.ANNtrainingmodules,theloadintermsofstrain,andvolumefractionofaaretheinputsandthestressasanoutput.ANNsystemwastrainedusingthepreparedtrainingset(a,16%a,40%a,andbstress–straincurves).Aftertrainingprocess,testdatawereusedtochecksystemaccuracy.Itisobservedthatfeed-forwardback-propagationnetworkisthefastest,andLog-Sigmoidtransferfunctionisgivingthebestresults.Finally,layerrecurrentNNwithasinglehiddenlayerconsistsof11neurons,andLog-Sigmoidtransferfunctionusingtrainlmastrainingalgorithmisgivinggoodresult,andaveragerelativeerroris1.27±1.45%.Intwohiddenlayers,layerrecurrentNNconsistsof7neuronsineachhiddenlayerwithtrainrpasthetrainingalgorithmhavingthetransferfunctionofLogSigmoidwhichgivesbetterresults.Asaresult,theNNisfoundedsuccessfulforthepredictionofstress–straincurveofnearbtitaniumalloy.
简介:TheCurietemperatureof(Nd1-xPrx)2Fe14CoyBcompounds(x=0,0.2,…,1.0andy=O,2,4,6,14)hasbeendeterminedwithACinitialsusceptibilitymeasurement.ItwasfoundthatthevariationsofCurietempera-turewithxisnotlinearfory=0and14,whereasitislinearforothervaluesofy.Thelatticeconstantsof(Nd1-xPrx)2Fet14BweredeterminedbyusingX-raydiffraction.Thelatticeexpansionwasmostlyalongthecaxis,whereasthatalongthea-axisremainedpracticallyzeroforthewholeseries.ItissuggestedthatPratomsmayshowsitepreferenceinR2M14Bcompounds(M=FeorCo).DuetothesubstitutionofCoforFe.thetendencyofsitepreferenceofPrbecomeslesspronounced,whichmaybeattributedtothedecreaseofdiffer-enceofcrystalelectricfield(CEF)actingonthetworareearthsiteswiththeintroductionofCoorFe.Incon-trasttothatofthePratoms,thesitepreferenceofCoiu(Nd(1-x)Prx)2Fe(14-y)CoyBcompoundsdoesnotdependonthecompositionoftherareearthsublattice(R=NdorPr).
简介:采用B50A789材料制备的压气机叶片产生的缺陷,主要是由于原材料内部夹杂、局部偏析、组织粗大,带状偏析和折叠引起的.本研究采用金相和能谱分析方法研究了锻造压气机叶片表面裂纹的形成机理,并对其锻造裂纹的形成过程进行有限元模拟.结果表明结合低倍及高倍形貌特征,可以得出叶片缺陷为锻造加工过程产生的折叠裂纹;通过有限元模拟分析认为锻造叶片表面裂纹是源于锻件在制坯过程中,在连接杆与安装圆盘的转接处形成啃伤台阶,导致终锻结束时在叶身形成折叠裂纹缺陷.同时通过对试验过程中锻造工艺调整,采用分料卡子对过渡区分料或进行打磨来保证转角半径圆滑过渡,可有效避免叶片表面折叠和裂纹缺陷的形成.
简介:研究镱纤维激光焊接哈氏合金C-276薄板焊缝区的元素微偏析特性.通过EDS数据分析得到的偏析比和元素的平衡分布系数表明,与以往报道的激光焊接哈氏合金C-276相比,镱纤维激光焊接哈氏合金元素微偏析减少.镱光纤激光器的高熔融效率、低线性输入热量及糊状区较高的冷却速率导致微偏析减少.用镱光纤激光器焊接哈氏合金C-276的熔融效率为64%,比传统焊接方法的熔融效率(48%)高.高熔融效率导致焊接所需的线性热输入减少,因此在本研究中发现,与以往的报道相比,其减幅更大.焊缝中心线从液相温度到固相温度的冷却速率量级为10^3℃/s.在焊缝中心线形成了构成较低微偏析的胞状枝晶子结构.
简介:有软磁性的层(Fe)或antiferromagnetic层(Mn,FeMn或MnO)的各向异性的Pr-Fe-B电影被准备由直流(DC)磁控管在Si(100)底层上劈啪作响在650点加热了?te是由有90的一个方向的热伪造?%塑料变丑。然后,前进状态的微观结构合成被观察,并且机械性质的变化法律和磨擦表演在以后并且在塑料使变形前被比较。结果显示艾尔3增强Zr的粒子旋转并且闯入10-20的更小的尺寸?ng可溶的biopolymer有三个转变金属离子的牛的浆液白朊(BSA)(M,M=Cu,公司,Mn)。白朊一定的金属离子的有约束力的模式和比率被调查。BSA-M建筑群被紫外力的、圆形的二色性(CD)描绘系列和polyacrylamide胶化电气泳动(页)。当聚合物支架和金属建筑群作为催化活跃中心工作了,BSA服务了。当到BSA的转变金属离子建筑群的有约束力的比率是5:1时,结果证明BSA的结构仍然保持未改变。而且,清除superoxide一??
简介:ExtractingB2O3fromcalcinedboronmud(CBM)wasstudied.TheeffectoffactorssuchasreactiontemperatureandNaOH-to-CBMmassratioonB2O3extractionefficiencywasinvestigated.TheresultsshowthatincreasingreactiontemperatureandNaOH-to-CBMmassratioincreasesB2O3extractionefficiency.TherearetwostagesfortheB2O3extractingprocess:0–20ministhefirststage,whichisrapid;20–50ministhesecondstage,whichisslowerthanthefirststage.Theoverallextractingprocessfollowstheshrinkingcoremodel,andthefirstandsecondstagesaredeterminedtoobeythesurfacechemicalreactionmodelandthediffusionthroughtheproductslayermodel,respectively.Theactivationenergiesofthefirstandsecondstagesarecalculatedtobe41.74and15.43kJ·mol-1,respectively.TheB2O3extractingkineticsequationsofthefirstandsecondstagesarealsoobtained.
简介:ThecoercivitymechanismofNd-Fe-Bbasedmagnetspreparedbyanewtechniqueofstripcastingwasinvestigated.Differentfromthetraditionalmagnets,α-FephasesaredifficulttobefoundinNd-Fe-Bmagnetspreparedbystripcasting.Meanwhile,therich-Ndphasesoccurnotonlynearthegrainboundariesofmainphases,butalsowithinthemain-phasegrains.Investigationonthemagnetizingfielddependenceofthecoercivityforthe(Nd0.935Dy0.065)14.5Fe79.4B6.1magnetandthetemperaturedependenceofthecoercivityfortheNd14.5Fe79.4B6.1magnethavebeendone.Resultsshowthatcoercivitiesforstripcastingmagnetsarecontrolledbythenucleationmechanism.
简介:ElectrocrystallizationMechanismofTungsteninMoltenKF-B_2O_3-K_2WO_4WenZhenhuanandLiGuoxun文振环,李国勋(GeneralResearchInstiiuteforNo...
简介:通过单向拉伸试验研究镁合金AZ31B的电塑性效应。为了显示脉冲电流的非热效应,在相同温度下开展两类试验:环境箱中的单向拉伸试验和脉冲电流辅助的单向拉伸试验。此外,对脉冲电流在材料变形过程中引起的温度场进行数值模拟。结果表明,沿材料截面方向温度分布均匀。通过对比两类单向拉伸试验的真应力-真应变曲线,证实了脉冲电流非热效应的存在。通过光学显微镜研究脉冲电流对材料微观组织演化的影响,结果表明:脉冲电流引起的动态再结晶对流动应力的下降起重要作用。最后,提出一个考虑电塑性响应的AZ31B流动应力模型,并通过实验进行验证。结果表明:模型预测结果和实验结果吻合较好。
简介:RadiallyorientedNd–Fe–BringmagnetswerepreparedbybackwardextrusionofMQ-Cpowder.Thepunchchamferradiushasagreatimpactonthemicrostructureandmagneticpropertiesoftheringmagnet.Withthechamferradiuschangingfrom2,5to8mm,thecracksintheinnerwalldecreaseobviouslywhilethecrystallographicalignmentdrops.Furthermore,themechanismofcaxisgrowthwassuggestedtobeacombinationofsheardeformationinthecornerandsolution-precipitationunderthestressparalleltoradialdirection.Thealignmentdropsonthetopofringbecausethegrainsgrowfreelyandsometexturedgrainsgrowthroughnucleationandrecrystallization.Inthepresentwork,theoptimalpunchchamferradiusisfoundtobe2mm,andinthiscase,theremanence,coercivity,andmaximumenergyproductoftheringmagnetachieve1.4T,670kJám,and342kJám,respectively.
简介:Thesegregationanddiffusionofboronduringheattreatmentswerestudied.Theinfluenceofboroncontents,agingtimeandappliedstressonFeMo2B2formationwasalsostudied.Finally,theeffectsofboroncontentsandFeMo2B2formationonthehightemperaturestrengthwerestudied.Boronatomsweresegregatedtoprioraustenitegrainboundaryduringnormalizingtreatment.Andtheseboronatomswereslowlydiffusedintothegraininteriorduringtemperingandagingat700℃.TheFeMo2B2phasewasonlyformedafter1,000hagingat700℃inalloycontaining196ppmboron.TheformationofFeMo2B2phaseisacceleratedbytheappliedstress.ItwasexpectedthattheformationofFeMo2B2iscloselyrelatedtotheredistributionofboronatoms.Thetensilestrengthsat700℃areincreasedwiththeincreaseofboroncontents.However,theformationofFeMo2B2phaseresultsinlowertensilestrength.