简介:本文采用扫描振动微电极和局部电化学交流阻抗谱测试了近中性pH环境中X70管线钢平滑试样及裂纹尖端发生的局部溶解电化学行为,用来确定并量化应力和氢以及它们对阳极溶解的协同作用在裂纹扩展中的作用。研究结果表明,外加拉伸应力能够提高管线钢的阳极溶解速度,应力较小时,应力加速溶解并不明显;应力提高到80%屈服强度时,管线钢的阳极溶解速度显著提升。裂纹或者裂纹状缺陷的存在会引起应力集中因而会导致加速局部阳极溶解速度。当预制裂纹CT试样受到3000N拉力时,裂尖的应力影响阳极溶解因子高达3.6,而低应力区域只有1.10。近中性pH环境中氢与应力对管线钢在的阳极溶解的联合作用,这对裂纹的扩展起到了决定性的作用。受到525MPa应力的平滑试样在不同电流密度0.1mA/cm^2,1mA/cm^2,5mA/cm^2,10mA/cm^2和20mA/cm^2充氢后,氢与应力对阳极溶解的协同影响因子,分别是1.048,1.668,2.568,3.976和5.437。
简介:BasedontheMiedemamodelandExtendedMiedematheory,theformationenergiesofdifferentsolutecomponentsinEr-XbinarysystemandAl-Er-Xternarysystemswerecalculated.TheresultsshowthatthevariationoferbiumcontenthaslittleinfluenceonthechancerateoftheformationAl-ErcompoundintheAl-Mg-Mn-Zr-Ersystem.ThecalculatedformationenergiesintheEr-XbinarysystemandAl-Er-XternarysystemsindicatethatAl3Erphasecantakepriorityofdepositing,Al-Er-Zrternarycompoundsmayalsofoundwhichagreeswiththeexperimentalresultsinreferences.TheconsistencyofcalculationandexperimentprovesthattheintermetalliccompoundsintheAl-Mg-Mn-Zr-ErsystemcanbepredicteddirectlybycalculatingtheformationenergiesofthereactionsinEr-XbinarysystemandAl-Er-XternarysystemswiththeMiedemamodelandExtendedMiedematheory.
简介:通过射线照相检测对TC4钛合金铸件内部常见缺陷及其在热等静压前后的演变进行分析,结果表明:TC4钛合金铸件内部大部分闭合孔洞类缺陷经热等静压均可消除,内部缺陷底片上显示消失;少量的夹杂类和非闭合孔洞类缺陷未压合,在底片上与热等静压前缺陷显示基本一致;个别缩孔缺陷部分压合或表面压陷,极少量的大尺寸缩孔缺陷压缩变形为线性缺陷,在底片上缺陷显示形态发生变化。由于线性缺陷的结构特征在射线照相检测时易导致影像对比度下降,进而影响缺陷的检出率,因此应在热等静压前对易产生缩孔部位进行射线照相检测并将大尺寸缩孔清除补焊,避免热等静压后缩孔压缩变形造成缺陷漏检。
简介:Inthisinvestigation,themechanicalpropertiesandlow-temperaturefracturetoughnessofAPI5LX65offshorepipelineweldedjointswerestudied.StructureIntegrityAssessmentProcedure(SINTAP)-FailureAssessmentDiagram(FAD)methodwasappliedtothepipestructurewithsurfaceflawattheweldtoe.AccordingtotheISOstandardBS7448,theCTODfracturetoughnessoftheweldedjointswasdeterminedatthetemperatureof0℃.Fortheheat-affectedzone(HAZ)specimens,post-testmetallographicanalysiswasperformedtoverifythatthetipofthecrackwaslocatedinthecoarsecrystalzoneinordertoconfirmthevalidityoftheaboveresults.Thefailurelinesofanalysislevel1and3ofweldmetalwerederivedfromtheresultsofthemechanicalpropertytest.Theassessmentwasperformed,consideringthemaximumlaystress,residualstressconservativelyassumedtobeuniformtensilestress,andminimumCTODvalue.Theresultsoftheassessmentshowedthatpipelinestructurewithasurfaceflaw(theheightandlengtharerespectively2.2mmand5mm)attheweldtoeissafe.ThisstudylaysthefoundationofapplicationofSINTAPtopipelinestructureassessment.
简介:X-rayDouble-crystalDiffractometerwithHorizontalSlitsandItsApplicationsXuJingyangandZhuNanchang徐景阳,朱南昌(ShanghaiInstituleofMeta...
简介:MgTixNi(x=0,0.1,and0.2)alloysweresuccessfullypreparedbymechanicalalloying(MA),andtheinfluenceofmillingtimeontheelectrochemicalcharacteristicsoftheelectrodeswasdiscussed.MgTixNialloysafter90hmillingdisplayedthebestelectrochemicalperformance.TheX-raydiffractionpatternsshowedthatthealloyball-milledfor90hwasamorphouswithawideneddiffractionpeak.Thecharge-dischargetestsindicatedthatthesealloyshadgoodelectrochemicalactivationproperties,andtheMgTi0.2Nialloyelectrodeexhibitedthebestcycleperformance.TheinitialdischargecapacityoftheMgTi0.2Nialloyreachedupto401.1mAh·g-1,andtheretentionrateofcapacitywas31.0%after30cycles,muchhigherthanthatofMgNi(17.3%).TheTafelpolarizationcurvesrevealedthatTiadditioncouldenhancetheanticorrosionperformanceofthesealloysinalkalisolution,whichwasresponsiblefortheamelioratedcyclicstabilityofthesealloyelectrodes.
简介:X-raydiffraction(XRD)anddifferentialscanningcalorimetry(DSC)wereusedtoinvestigatethecrystallizationprocessofamorphousAl90TMxCe10-x(atomfractionin%;TM=FeorNi;x=3,5)alloys.AgingeffectswereexaminedbyX-raydiffraction.ThestructurecorrespondingtotheprepeakfortheamorphousAl90Fe5Ce5alloyismorestablethantheamorphousmatrix,butitisnotstableforamorphousAl90Ni5Ce5alloyduringthefirstcrystallizationstageandevendecomposesatroomtemperature.AlthoughbothAl-NiandAl-Fehavestrongchemicalbonding,thecrystallizationonsettemperatureofamorphousAl-Fe-CealloysismuchhigherthanthatofamorphousAl-Ni-Cealloys,whichislikelycausedbythedifferentstabilityofthestructurecorrespondingtotheprepeak.ThecrystallizationonsettemperatureincreasesasCe/NiratioincreasesinamorphousAl90NixCe10-xalloys,whereasitdecreasesasCe/FeratioincreasesinamorphousAl90FexCe10-xalloys.AbetteratomicpackingproducesasCecontentincreasesbecauseofthesizemismatchinAlNi-CesystemsandasFecontentincreasesbecauseoftheincreasingFecentralstructuralunits.
简介:采用高温固相法制得Eu^3+掺杂的Lu2MoO6荧光粉,通过X射线衍射(XRD)及激发、发射光谱和衰减寿命等手段对样品的结构和发光性质进行了表征。XRD结果表明:制备的荧光粉均为单斜结构。实验结果表明该样品在可见光谱范围内能够被近紫外光有效地吸收,该吸收来自Mo^6+–O^2-吸收带。在掺杂10%Eu^3+的情况下,发光最强。详细地研究最佳临界距离Rc和能量机制。Lu2MoO6:Eu^3+红色荧光粉是一种可应用于近紫外激发白光LED用的新型红色荧光粉。