简介:Inthiswork,SMAT(surfacemechanicalattritiontreatment)wasperformedonTi6Al4V.PlasmanitridingoftheSMATedsampleswasinvestigatedincomparisonwithcoarse-grainedsamples.Thesampleswerecharacterizedusingopticmicroscope,SEM,TEMandVickersmicrohardnesstester.TheresultsshowedthatasignificantlythickercompoundlayerwithhigherhardnesswasobtainedfortheSMATedsampleswhencomparedwithun-SMATedsamplesafternitriding.CorrosionresistanceofTi6Al4VinaRinger’ssolutionwasstudiedbyelectrochemicaltechniquesincludingopencircuitpotentialmeasurement,potentiodynamicpolarizationandEIS(electrochemicalimpedancespectroscopy).Overall,ourresultsidentifiedthebeneficialimpactsoftheduplexSMAT/nitridingtreatmentoncorrosionbehaviourofTi6Al4V.Weartestswerealsoperformedonaball-on-disctribometerwherethetreatedsampleswererubbedagainsta6mmdiameteraluminaballunderanormalloadof5NusingRinger’ssolutionaslubricantmedia.ThefrictioncoefficientoftheSMATedandnitridedsampleswasreducedcomparedtotheuntreatedsamples.WearratesdemonstratedthatSMATcombinedwithnitridingimprovedwearresistanceofTi6Al4Valloy.
简介:采用扩散偶实验方法研究Fe含量对Ti6Al4V合金显微组织和性能的影响。通过制作Ti6Al4V-Ti6Al4V20Fe扩散偶,在1000°C经600h扩散退火,在一个样品内获得具有连续成分梯度的合金。结合电子探针、扫描电镜和纳米压痕,确定Ti6Al4VxFe合金成分-组织-硬度的关系。当合金中Fe含量增加到5%(质量分数)时,时效状态下合金中的α相体积分数降低到55%,同时合金具有最高的硬度,Ti6Al4V5Fe合金将是Ti6Al4VxFe体系中最具前景的合金。HAADF-STEM和XRD结果表明,Ti6Al4V5Fe合金在固溶淬火阶段生成纳米尺寸α''层片,这些亚稳的α''层片在随后的时效过程中逐渐长大,并作为α相的形核核心,形成稳定α相。
简介:目的:评价选择性激光熔化成型技术制备Ti6Al4V对骨髓间充质干细胞的生物学行为的影响。方法:应用选择性激光熔化成型技术制备Ti6Al4V合金及纯钛材料。培养比格犬的骨髓间充质干细胞,将其接种于两种材料上,计算细胞在两种材料上的相对增殖率及存活率,并根据细胞相对增殖率对细胞毒性进行分级,并计算细胞早晚期凋亡率及总凋亡率。结果:经过72h的复合培养,纯钛的细胞相对增殖率(97.26±3.78)%优于Ti6Al4V合金(91.77±2.65)%,但无统计学差异,两组的毒性分级均为1级,表明两种材料均无细胞毒性;两组间的细胞存活率无统计学差异。各组材料与犬骨髓间充质干细胞共培养48h后,早期细胞凋亡率、晚期细胞凋亡率及总凋亡率Ti6Al4V试件组、纯钛试件组均高于DMEM组,差异均有统计学意义(P〈0.05),但Ti6Al4V试件组与纯钛试件组之间无统计学差异(P〉0.05)。结论:两种钛材料对细胞均无细胞毒性,都表现了较好的细胞存活率,两种材料间未见对细胞凋亡的差异,相容性良好。
简介:Themicrostructureevolutionandphasecompositionofanα+βtitaniumalloy,Ti-3Al-5Mo-4.5V(wt.%),havebeeninvestigated.Electronprobemicroanalysis(EPMA)quantitativeresultsmanifestthatthestabilityofβphasedecreaseswithincreasingquenchingtemperature,whichisinfluencedbythesignificantvariationofβ-stabilizingelementsconcentration.Detailedmicrostructureanalysisshowsthattheβ→ωphasetransformationdoesoccurwhenquenchingat750℃and800℃.Theω-reflectionschangefromincommensurateω-spots(750℃)toidealω-spots(800℃)astheβstabilityofthealloydecreases.Furtherthedecreaseofβphasestabilityencouragestheformationofathermalα"martensite,whichhasthefollowingorientationrelationships:[111]β//[110]α",[100]p//[100]α"and[-110]p//[00-1]α"withrespecttotheβmatrix.
简介:AdditionofAl-5Ti-1Balloytomoltenaluminumalloyscanrefineα-Algrainseffectivelyandtherebyimprovetheirstrengthandtoughness.TiAl3andTiB2inAl-5Ti-1Balloyarethemainsecondary-phaseparticlesforrefinement,whiletheunderstandingontheeffectoftheirsizesonα-Algrainrefinementcontinuestobefragmented.Therefore,Al-5Ti-1Balloyswithvarioussizesandmorphologiesofthesecondary-phaseparticleswerepreparedbyequalchannelangularpressing(ECAP).Evolutionofthesecondary-phaseparticlesduringECAPprocessandtheirimpactonα-AlgrainrefinementwerestudiedbyX-raydiffractionandscanningelectronmicroscope(SEM).ResultsshowthatduringtheECAPprocess,micro-cracksfirstlyappearedinsideTiAl3particlesandthengraduallyexpanded,whichresultedincontinuousrefinementofTiAl3particles.Inaddition,micro-distributionuniformityofTiB2particleswasimprovedduetotheimpingementofTiAl3particlestoTiB2clustersduringdeformation.ExcessivelylargesizesofTiAl3particleswouldreducethenumberofeffectiveheterogeneousnucleusandthusresultedinpoorgrainrefinementeffectiveness.Moreover,excessivelysmallTiAl3particleswouldreduceinhibitoryfactorsforgraingrowthQandweakengrainrefinementeffectiveness.Therefore,anoptimalsizerangeof18-22μmforTiAl3particleswassuggested.
简介:采用一种新型高通量实验方法,实现对Ti-5553合金(Ti-5Al-5Mo-5V-3Cr,质量分数,%)在600~700℃范围内的连续温度梯度热处理。实验通过对圆台形样品进行直流电加热,由于截面面积不同而导致电流热效应不同,从而使样品表面温度呈梯度变化。采用端淬实验实现Ti-5553合金的连续冷却速率变化,研究合金在不同热处理条件下的显微组织演变和力学性能。结果表明:Ti-5553合金的伪调幅分解温度为(617±1)℃,析出的α相尺寸在300nm左右;合金在伪调幅分解温度下时效4h达到最高的硬度。因此,这种高通量方法能够快速准确地判断合金中相转变温度以及相应的组织转变。
简介:摘要目的探析在TI-RADS4~6类甲状腺病变中超声引导下细针穿刺细胞学的应用效果。方法对常规超声TI-RADS分类同时经超声引导下FNAB(细针穿刺细胞学)124例(138个结节)患者的基本资料回顾性分析,筛选出TI-RADS4~6类46例患者(54个结节),分设三组,即TI-RADS4A类(I组)、TI-RADS4B类(II组)和TI-RADS5~6类(III组)。对三组FNAB经超声引导下诊断情况进行分析。结果I组患者中,经超声引导下FNAB敏感性、特异性和准确率分别为63.64%、72.22%和68.97%。II组患者中,其敏感性、特异性和准确率分别为81.82%、28.57%和61.11%。III组患者中,其敏感性、特异性及准确率分别为100.00%。结论将细针穿刺细胞学和TI-RADS分类标准联合实施,对诊断II组、I组准确率的提升能起到一定的促进作用,而且还能使III组的穿刺率下降。
简介:TheevolutionofmicrostructureandmechanicalpropertiesofAl-0.4Cu-0.14Si-0.05Mg-0.2Fe(wt.%)alloys,micro-alloyedwithZr,TiandSc,wereinvestigated.Theadditionof0.2%ZrtobasealloyacceleratestheprecipitationofSi-richnano-phaseinα-Almatrix,whichplaysanimportantroleinimprovingthemechanicalpropertiesofanalloy.Thetensilestrengthincreasesfrom102MPaforthebasealloyto113MPafortheZr-modifiedalloy.Adding0.2%Zr+0.2%Titobasealloyeffectivelyrefinesa-AlgrainsizeandacceleratestheprecipitationofSiandCuelements,leadingtoheavysegregationatgrainboundary.Byfurtheradding0.2%SctoZr+Timodifiedalloy,thesegregationofSiandCuelementsissuppressedandmoreSiandCuprecipitatesappearedinα-Almatrix.AccompaniedwiththeformationofcoherentAl3Scphase,thetensilestrengthincreasesfrom108MPafortheZr+Timodifiedalloyto152MPafortheSc-modifiedalloy.DuetoexcellentthermalstabilityofAl3Scphase,theSc-modifiedalloyexhibitsobviousprecipitationhardeningbehaviorat350℃,andthetensilestrengthincreasesto203MPaafterholdingat350℃for200h.
简介:以LiOH为锂源,C16H36O4Ti为钛源,采用液相法制备Li4Ti5O12样品,并考察了烧结温度及热处理时间对材料的影响。为提高Li4Ti5O12的导电性,实验选取PVA为碳源以制备Li4Ti5O12/C材料。结果表明,Li4Ti5O12经5%及10%质量分数的PVA热解处理后,所得Li4Ti5O12/C的常温循环稳定性、倍率性能得到显著改善。5C倍率下60次充放电循环后,5%、10%质量分数Li4Ti5O12/C材料分别可保持123mAh/g、125mAh/g的放电容量。