简介:本文采用磁粉、X射线、CT和超声等无损检测和金相分析等方法对40CrNi2Si2,MoVA钢制零件的磁痕显示进行了系统分析。研究认为,40CrNi2Si2MoVA钢制零件的磁痕显示为显微成分沿变形方向偏析导致的马氏体转变点Ms差异所致。显微成分偏析是钢锭结晶过程中不可避免的,但可通过优化熔炼工艺参数降低显微偏析的程度。本文还分析了四种磁痕显示的类型及其判别方法。
简介:Themetal-organicchemicalvapordeposition(MOCVD)techniqueisapromisingprocessforhigh-temperaturesuperconductorYBa2Cu3O7-δ(YBCO)preparation.Inthistechnique,itisachallengetoobtainbariumprecursorswithhighvolatility.Inaddition,thepurity,evaporationcharacteristics,andthermostabilityofadoptedprecursorsinwholeprocesswilldecidethequalityandreproducibleresultsofYBCOfilm.Inthepresentreport,bis(2,2,6,6-tetramethyl-3,5-heptanedionato)barium(Ⅱ)(Ba(TMHD)2)wassynthesized,anditsstructurewasidentifiedbyFTIR,1HNMR,13CNMR,andESI-MSspectroscopy.Subsequently,thethermalpropertiesandthekineticsofdecompositionweresystematicallyinvestigatedbynonisothermalthermogravimetricanalysismethods.BasedontheaverageapparentactivationenergyevaluatedbytheOzawa,Kissinger,andFriedmanmethods,thevolatilizationprocesswasdiscussed,andallresultsshowthatBa(TMHD)2isunstableandhighlysensitivetothechangeoftemperatureduringthewholeevaporationprocess.Therefore,itisveryimportanttochoosesuitablevolatilizationtechnologyandconditionsforavoidingBa(TMHD)2break-down(orthermalaging)duringMOCVDprocess.Subsequently,thepossibleconversionfunctionisestimatedthroughtheCoats-Redfernmethodtocharacterizetheevaporationpatternsandfollowsaphaseboundaryreactionmechanismbythecontractingsurfaceequationwithaverageactivationenergyof118.7kJ.mol-1.
简介:起落架40CrNi2Si2MoVA钢螺桩在安装一段时间后发生了断裂。为确定螺桩断裂的原因,对断裂螺桩断口宏微观形貌、断裂螺桩及对比件的氢含量、材料的性能以及表面损伤等因素进行了检查,并对电镀工艺进行了评定。结果表明,裂纹主要起源于第一螺纹根部的机械损伤部位,源区以沿晶断裂特征为主,断裂件含氢量较高。综合分析认为。螺桩断裂性质为氢致延迟断裂,表面机械损伤对氢吸收和扩散的促进作用和40CrNi2Si2MoVA钢材料高强度所致的高氢脆敏感性是导致断裂的主要原因。
简介:通过基于密度泛函理论的第一性原理计算方法,对MgCu2,Mg2Ca和MgZn2的力学性能和电子结构进行计算,计算所得晶格参数与实验值和文献值相吻合。合金形成热和结合能的计算结果表明,MgCu2具有最强的合金形成能力和结构稳定性。计算了MgCu2,Mg2Ca和MgZn2的弹性常数,推导了体模量、剪切模量、弹性模量和泊松比。结果表明,MgCu2、Mg2Ca和MgZn2均为延性相,MgCu2的刚度最大,MgZn2的塑性最好。通过对结合能和弹性常数的计算,预测了MgCu2、Mg2Ca和MgZn2的熔点。通过对态密度(DOS)、Mulliken布居数、电子占据数和差分电荷密度的计算,分析了MgCu2、Mg2Ca和MgZn2的结构稳定性和力学性能机制。最后,计算和讨论了3种金属间化合物的Debye温度。
简介:ItiswellknownthatthephotocatalyticactivityofTiO2thinfilmsstronglydependsonthepreparingmethodsandpost-treatmentconditions,sincetheyhaveadecisiveinfluenceonthechemicalandphysicalpropertiesofTiO2thinfilms.Therefore,itisnecessarytoelucidatetheinfluenceofthepreparationprocessandpost-treatmentconditionsonthephotocatalyticactivityandsurfacemicrostructuresofthefilms.ThisreviewdealswiththepreparationofTiO2thinfilmphotocatalystsbywet-chemicalmethods(suchassol-gel,reversemicellarandliquidphasedeposition)andthecomparisonofvariouspreparationmethodsaswellastheiradvantageanddisadvantage.Furthermore,itisdiscussedthattheadvancementofphotocatalyticactivity,super-hydrophilicityandbactericidalactivityofTiO2thinfilmphotocatalystinrecentyears.
简介:Thesegregationanddiffusionofboronduringheattreatmentswerestudied.Theinfluenceofboroncontents,agingtimeandappliedstressonFeMo2B2formationwasalsostudied.Finally,theeffectsofboroncontentsandFeMo2B2formationonthehightemperaturestrengthwerestudied.Boronatomsweresegregatedtoprioraustenitegrainboundaryduringnormalizingtreatment.Andtheseboronatomswereslowlydiffusedintothegraininteriorduringtemperingandagingat700℃.TheFeMo2B2phasewasonlyformedafter1,000hagingat700℃inalloycontaining196ppmboron.TheformationofFeMo2B2phaseisacceleratedbytheappliedstress.ItwasexpectedthattheformationofFeMo2B2iscloselyrelatedtotheredistributionofboronatoms.Thetensilestrengthsat700℃areincreasedwiththeincreaseofboroncontents.However,theformationofFeMo2B2phaseresultsinlowertensilestrength.
简介:熔结环氧粉末(FBE)和三层聚烯烃(3LEO)防腐层体系已经在世界上被广泛用作新建管道的外防腐层。文献中已有报告,在三层聚烯烃(3LPO)防腐层体系的熔结环氧粉末(FBE)层与钢管表面之间的界面上发生若干防腐层剥离问题。防腐层剥离问题已经引起人们对三层聚烯烃(3LPO)防腐层体系应用的关注,因为人们一直认为它是比单层熔结环氧粉末(FBE)防腐层具有更强的抗损伤特性的管道防腐层体系。三层聚烯烃(3LPO)防腐层体系之所以发生剥离,是因为钢管表面喷砂除锈预处理或者预热温度不当导致熔结环氧粉末(FBE)层与钢管表面之间的附着力严重缺失。加热过程不协调或者聚烯烃的挤出包覆过程产生的残余应力加剧了附着力的缺失。本项研究的目的是研究防腐层剥离机理,其与防腐材料与钢管底材之间加热过程的不协调所产生的残余应力有关。已经采用应力分析方法和有限元模型(FEM)计算出热诱导应力。特别在管端焊接预留部位,应用有限元模型(FEM)着重分析了在管端焊接预留部位防腐层角上的应力集中间题。应力分析结果表明,熔结环氧粉末(FBE)层与聚乙烯外防护层干膜厚度(DFT)并不会引起熔结环氧粉末(FBE)底漆产生高应力,但是,管端焊接预留部位防腐层属于例外。在管端焊接预留部位防腐层的角上,随着聚乙烯防护层干膜厚度的增加,剥离应力显著增加。防腐层的剥离很可能就是因为3LPE管端焊接预留部位防腐层较高的应力集中而开始的,特别是同时存在较厚的聚乙烯防护层干膜厚度和熔结环氧粉末(FBE)层与钢管表面之间界面的粘结强度受环境影响而削弱时。
简介:TiO2/Au/TiO2多层的薄电影用dc(直接水流)在房间温度在聚合物底层被扔磁控管劈啪作响方法。由改变每层的厚度,TiO2/Au/TiO2多层的电影的光、电的性质能被定制适合不同应用。厚度和Au层的光性质和Au绝缘的接口的质量为Au绝缘的多层的薄电影的电、光的表演是批评的。在8nm的厚度,Au层形成有最低抵抗力和它的连续结构一定为高发射度薄。多层的栈能被优化有6的一个表电阻?在在在波长的680nm的超过80%的发射度的/sq.。当时,山峰发射度向长波长区域变二TiO2的厚度(上面、更低)层增加。当二部TiO2电影的电影厚度是45nm时,高发射度价值为全部可见轻波长区域被获得。
简介:为提高硼的去除率,研究了电磁感应精炼过程中硼杂质在CaO-SiO2-BaO-CaF2四元渣和熔硅之间的分配系数LB,讨论了四元渣系中CaO/SiO2质量比、BaO和CaF2含量、熔炼时间对LB的影响规律。结果表明:随着CaO.SiO2渣中BaO和CaF2含量的增大,LB值增大。当CaO/SiO2质量比为1.1:1、BaO和CaF2含量分别为15%和20%时,CaO.SiO2.BaO.CaF2四元渣去除熔硅中硼杂质效果最好,LB达到最大值6.94,并且LB随着熔炼时间的延长而增大。经过两次造渣后,熔硅中硼含量由3.5×10.5降到3.7×10.6,硼的去除率达到89.4%。
简介:Inviewoftheimportanceofsolventextractionofrareearthmetalswiththeacidicorganophosphorousreagent,thedevelopmentofachemicallybasedmodelapplicabletohighconcentrationisdesired.Inthepresentstudy,theequilibriumdistributionofdysprosium(Ⅲ)betweenanaqueousnitricacidsolutionand2-ethylhexylphosphonicacidmono-2-ethylhexylester(PC88A)wasmeasuredintherangeofaninitialaqueousdysprosium(Ⅲ)concentrationfrom1.0×10-3to1.0×10-1kmol/m3andPC88Aconcentrationfrom0.16to0.65kmol/m3inShellsolD70asthediluent.Theobtaineddatawereanalyzedusingthechemicallybasedmodelinordertocorrelatetheequilibriumdistributionratios.Inthismodel,dysprosium(Ⅲ)wasassumedtobeextractedwiththePC88Adimerasa1:3complex,theactivitieswereconsideredfortheaqueousspecies,andtheeffectiveconcentrationofthePC88AdimerwascalculatedusingAlstad'sempiricalequation.Asaresult,theapparentextractionequilibriumconstantwasdeterminedtobe253(kmol·m-3)-2withanexcellentcorrelationbetweentheexperimentandcalculationresultsinthewiderangeofthelogarithmofthedistributionratiofrom-2to3.5.Inconclusion,themethodologyinthismodelwouldbeeffectiveforquantitativedescriptionofsolventextractionbehaviorofgeneralrareearthelementsaswellasdysprosium.
简介:Byuseofmicro-DTAtechniqueaswellasambientandhightemperatureX-rayanalysisthephasediagramofNaCl-CaCl2hasbeenchecked.Itis.asimpleeutecticsystemwithasolidsolubilityinthesodiumchlorideside.Theeutecticpointisat773K,49mol%NaCl.Theexperimentalresults,especiallythoseoftheX-raydiffractionstudieshaveshowedthattheincongruentcompound4NaCl-CaCl2doesnotexistintheNaCl-CaCl2system.
简介:SiC/Si<潜水艇class=“a-plus-plus”>3N<潜水艇class=“a-plus-plus”>4合成是用自我繁殖的高温度的燃烧合成-Si3N<潜水艇class=“a-plus-plus”>4粉末和适当数量原文如此搽粉。两个都,sintering添加剂,系统被使用,它是YAN(Y2O3艾尔2O3AlN)并且YN(Y2O3AlN)。影响在SiC/Si的sintering行为上原文如此满意<潜水艇class=“a-plus-plus”>3N<潜水艇class=“a-plus-plus”>4合成被调查。结果证明有二个sintering添加剂系统的样品的密度,收缩,弯曲力量,坚硬,和破裂坚韧随内容的增加增加第一原文如此然后甚至当原文如此内容不断地增加时,减少。样品的重量损失的趋势是相反的。有最好的机械性质的样品原文如此满意在二个系统是不同的。为YAN系统,当原文如此内容到达10时,样品的最好的机械性质被获得?%,当至于YN系统它是5时?%。YN样品的性质比YAN样品优异。J阶段(2Y2O3吠敨爠畯整漠?灡汰楹杮氠睯瀠敲獳牵?景???慐漠?桴?獡搭獩牰灯牯楴湯瑡摥朠敲湥挠浯慰瑣搠牵湩?桴?敤潳灲楴湯爠'啼礃A慮楴湯瀠潲散獳椠?楳畴栠瑯搠晥牯慭楴湯椠??灳牡?汰獡慭猠湩整楲杮?偓?猠獹整?慣?扯慴湩挠浯汰瑥汥?敲潣扭湩摥丠??洠条敮?楷桴朠潯?湡獩瑯潲祰愠摮洠条敮楴?牰灯牥楴獥?桔?慭楸畭?慭湧瑥捩瀠潲数瑲敩??????汣獡?愢瀭畬?汰獵?慭?猯'T?????鮪徬鞪??极脿???醰鑛??鴿鎘銳????�