简介:采用BP神经网络对聚酯玻璃钢氙弧灯加速老化的弯曲寿命进行了预测。通过对聚酯及其玻璃钢的人工氙弧灯加速老化,测试其不同老化时间的弯曲强度,对弯曲强度与老化时间进行BP神经网络的建模分析,借助MATLAB软件对聚酯玻璃钢的使用寿命分别进行分析与预测,并采用最小二乘法对所预测的结果进行了对比。结果表明:在以弯曲强度达到初始强度值的一半作为失效条件下,聚酯的氙灯老化寿命为813d,含填料玻璃钢老化寿命为1031d,无填料玻璃钢老化寿命为1065d,说明BP神经网络可以预测玻璃钢的老化寿命,预测结果与最小二乘法预测结果误差不大于8%,而且预测结果与该材料性能的实际情况相符。
简介:以便获得对Mg-Ga二进制系统的热力学的描述,对系统的热力学的评价通过Thermo计算用CALPHAD方法被执行?软件包裹基于从出版文学的所有可得到的试验性的数据的评估。答案阶段包括液体,hcp(Mg)并且斜方晶(Ga),被代理答案模型,过量吉布斯精力与Redlich-Kister多项式被表示描述。同时,所有金属间化合的混合物,Mg5Ga2,Mg2Ga,MgGa,MgGa2和Mg2Ga5,作为stoichiometric混合物被建模。在Mg-Ga二进制系统提出各种各样的阶段的吉布斯精力的一套前後一致的热力学的参数最后被获得。好一些的协议在计算结果和报导试验性的数据之间被完成。
简介:有5-8nm的尺寸的做Eu的GaOOHnanoparticles被热水的方法作为表面活化剂用钠dodecylbenzenesulfonate(SDBS)准备。做Eu的-Ga2O3和-Ga2O3被退火进一步制作GaOOH:Eu然后由X光检查衍射(XRD)描绘了,传播电子显微镜学(TEM)和光致发光(PL)。TEM结果显示出那monodisperse做Eu3+的GaOOHnanoparticles形式然后变换进通过退火的做Eu3+的-Ga2O3和-Ga2O3GaOOH:在600和900点的Eunanoparticles?????????????????@
简介:ThemicrostructureandmagnetostrictivepropertieswereinvestigatedintheTbdopedFe83Ga17-xTbx(x=0.05,0.10,0.20,0.30,0.40,0.50)bulkrodspreparedbymeltrapidlyquenching.ThepartialsolidsolubilityofTbintheFe–GamatrixwaspreliminarydetectedbythelatticeparametersandSEMobservation.ThematrixkeepsA2structureandthesecondphaseappearssurroundthegrainboundaryasxC0.1.h100ipreferredorientationisalsoobservedforx=0.1samplealongtheaxisofthequenchedrod.Thesaturationmagnetostrictionfirstincreasesandmaximumvaluereachesatx=0.1,andthendecreaseswithTbadditionincreasing.TheinitialincreaseofthemagnetostrictionshouldbeassociatedwiththepartialsolutionofTbinthematrix,themaximumvalueatx=0.1shouldbeattributedtotheh100ipreferredorientation,andthedecreaseofthemagnetostrictioniscorrelatedwiththeappearanceofthesecondphasealongthegrainboundary.
简介:Reducingthemanufacturingcostofsolarcellsisnecessarytotheirindustrialproduction.Electrodepositingisaneffective,non-vacuummethodwhichisverysuitableforcuttingthemanufacturingcostofthinfilmsaswellasdevelopingitslarge-scaleindustrialproduction.Inthisstudy,about1-μm-thickCu(In,Ga)Se_2(CIGS)precursorswereelectrodepositedonMo/glasssubstratesinaqueoussolutionutilizingathree-electrodepotentiostaticsystem.Triethanolaminewasusedascomplexingagent,andallparametersofelectrodepositionwerepreciselycontrolled.Afterthat,theelectrodepositedprecursorswereselenizedinaSeatmospherewithdifferentheatingramprates(60and600℃·min~(-1)).High-qualityCIGSfilmswereobtained,andtheircharacteristicswereinvestigatedbyX-rayfluorescence,scanningelectronmicroscopy,energydispersivespectroscopy,X-raydiffraction,Ramanspectraandnear-infrared-visible(NIR-Vis)spectra.Theresultsrevealthattherearemanydifferencesbetweenthepropertiesofthefilmsunderdifferentheatingrates.Finally,CIGSsolarcellswerefabricatedusingafastandaslowheatingrate.Themaximumefficienciesachievedforthefilmsselenizedat60and600℃-min~(-1)are3.15%and0.71%,respectively.