激光选区熔化Ti-6Al-4V合金的微纳压痕尺寸效应

目的研究不同状态激光选区熔化Ti-6Al-4V合金的纳米压痕尺寸效应。方法对原始态合金分别进行600、700、800、900℃退火处理,利用扫描电子显微镜观察原始态和4种退火态合金的显微组织。基于纳米压痕技术测量原始态及4种退火态合金的纳米硬度和弹性模量。基于比例试样阻力模型、Nix-Gao模型和Meyer定律对纳米硬度进行函数拟合。结果随着退火温度的升高,原始态组织从魏氏体逐渐演变为网篮组织。5种形态的Ti-6Al-4V合金的硬度和弹性模量均出现随压入深度的增加而减小的现象,表现出典型的压痕尺寸效应,基于试验测得的原始态及4种退火态合金的纳米硬度分别为3.66、4.36、3.96、3.88、4.77 GPa,弹性模量分别为113.1、125.2、102.1、100.3、108.7 GPa;基于比例试样阻力模型计算的纳米硬度分别为3.53、4.34、3.92、3.52、4.04 GPa;基于Nix-Gao模型计算的纳米硬度分别为3.68、3.94、4.07、3.85、4.47 GPa;基于Meyer定律拟合出的迈耶指数分别为1.75、1.86、1.82、1.80、1.81,均小于2,均表现为正压痕尺寸效应。结论激光选区熔化Ti-6Al-4V合金的硬度及弹性模量均有典型的压痕尺寸效应;3种模型均能较好地描述原始态和退火态合金的压痕尺寸效应,Nix-Gao模型直接建立了纳米硬度和压痕深度的关系,其拟合结果更接近于试验结果,计算的硬度值也最为准确。

Effect of Li and Ti Additions on Lα(Al)+Mg_2Si Pseudobinary Eutectic Reaction

Effect of Li and Ti additions on Lα(AI)+Mg2Si pseudobinary eutectic reaction in ternary Al-Mg-Si system has been investigated by thermoanalysis, directional solidification and metallographic techniques in this study. It has been found that Li addition causes decreasing of the volume fraction of Mg2Si, while a little amount of Ti causes to increasing, which is of a great importance to the adjustment of phase constitution and alloy properties. Doping components have little influence on the eutectic temperature.

EFFECTS OF HEAT TREATMENT ON TENSILE PROPERTIES AND SHAPE MEMORY EFFECTS OF Ni-Ti-Nb ALLOY

ＥＦＦＥＣＴＳＯＦＨＥＡＴＴＲＥＡＴＭＥＮＴＯＮＴＥＮＳＩＬＥＰＲＯＰＥＲＴＩＥＳＡＮＤＳＨＡＰＥＭＥＭＯＲＹＥＦＦＥＣＴＳＯＦＮｉＴｉＮｂＡＬＬＯＹ①ＺｈｅｎｇＹｕｆｅｎｇ，ＣａｉＷｅｉ，ＬｕｏＹｉｃｈｕｎ，ＺｈａｏＬｉａｎｃｈｅｎｇＳｃｈｏｏ...

Effect of Molybdate Ions on the Corrosion Behaviour of Ti Alloys

Titanium alloys are extensively used in power, chemical and petroleum industries as constructional materials for vessels and heat transfer tubes. Moreover they are candidate materials for nuclear waste disposal. These alloys have superior resistance to localized forms of corrosion compared to stainless steels and Ni-base alloys. However, this resistance is not as remarkable in crevice corrosion conditions in some aggressive media. Electrochemical corrosion tests were conducted on two ASTM Ti grades namely, Ti-2 and Ti-12 in extremely low pH acidic environment. Results indicated that Ti-2 has less resistance to both general and crevice corrosion attack than Ti-12. Both alloys possess better resistance to general corrosion than to crevice corrosion. Also, results showed that the molybdate addition improves remarkably the resistance of Ti-2 to both types of attack. The increase of molybdate ions concentration from 0.03 mol/L to 0.15 mol/L made Ti-2 to be as resistant as, or somewhat higher than, Ti-12. The elecrochemical findings were further supplemented by optical examination of the corroded surface.

理论指导构建Cu-O-Ti-O_(v)活性位点及其高效电催化还原硝酸根研究

面向国家绿色低碳战略目标,变革化石资源合成氨技术路线变得尤为迫切,开发可再生能源制“绿氨”将成为合成氨领域未来的重要发展方向.将工业废水中的硝酸根(NO_(3)-)电催化还原为氨(NO_(3)RR),既可有效回收氨,又能消除硝酸根污染影响.然而,NO_(3)RR涉及缓慢的八电子转移过程,含有多种反应中间体,其反应机理复杂不明.此外,水系电解液中存在的析氢竞争反应也为高效NO_(3)RR催化剂的开发设计带来了巨大的挑战.为突破高效催化剂的发展瓶颈,本文通过理论模拟,在低成本的催化剂上设计了高效的NO_(3)RR催化活性位点,并利用简单的制备策略合成了目标催化剂.同时,结合原位表征技术,阐明了NO_(3)RR的反应路径及催化机理.本文通过密度泛函理论(DFT)计算发现,Cu/TiO_(2)催化剂上的Cu-O-Ti-O_(v)结构具有较好的NO_(3)-还原活性,该结构不仅能够促进反应中间体NOx-的吸附和活化,还能有效抑制竞争析氢反应,从而降低NO_(3)RR的反应能垒.在该结构上,NO_(3)RR的反应路径为:NO_(3)^(*)→NO_(2)^(*)→HONO^(*)→NO^(*)→*NOH→*N→^(*)NH→*NH2→*NH_(3)→NH_(3).基于理论计算结果,分别采用浸渍法和尿素水解法制备了系列富含Cu-O-Ti-O_(v)结构的Cu/TiO_(2)催化剂.氮气等温吸附-脱附曲线、拉曼光谱(Raman)、电子顺磁共振波谱、X射线光电子能谱(XPS)和傅立叶红外光谱等结果发现,相比于采用浸渍法制备的系列Cu/TiO_(2)催化剂,采用尿素水解法制备的Cu/TiO_(2)(CT-U)催化剂具有更大的比表面积以及更多的Cu-O-Ti-O_(v)位点,说明尿素水解法可提高Cu颗粒在TiO_(2)载体表面的分散度,增强Cu颗粒与TiO_(2)载体之间的相互作用,提高Cu/TiO_(2)催化剂表面的Cu-O-Ti-O_(v)位点含量.将以上制备出的催化剂应用于催化NO_(3)RR中,结果表明,在-1.0 V vs.RHE还原电位下,CT-U催化剂上氨产率可达3046.5μg h^(-1) mgcat^(-1),高于大多数文献报道结果.循环稳定性测试结果表明,在Cu/TiO_(2)催化剂上构建Cu-O-Ti-O_(v)位点还能显著抑制电催化反应过程中Cu物种从Cu/TiO_(2)催化剂上溶出,从而显著增强催化剂的稳定性.此外,设计制备了不含氧空位的Cu/TiO_(2),TiO_(2)-x,Cu,Cu_(2)O以及CuO催化剂,并将其用于催化NO_(3)RR.结果发现,上述催化剂上的氨产率皆明显低于CT-U催化剂,说明Cu,Ti以及O_(v)构成的Cu-O-Ti-O_(v)结构具有较好的催化协同作用,从而显著提升了NO_(3)RR反应活性.最后,通过原位Raman及原位XPS表征检测反应中间体,验证了由DFT模拟出的NO_(3)RR反应路径.综上,通过在Cu/TiO_(2)催化剂上理论指导构建Cu-O-Ti-O_(v)活性位点,实现了NO_(3)RR性能的有效提升.Cu-O-Ti-O_(v)结构中的多位点协同作用不仅促进了NO_(x)-的吸附和活化,而且抑制了电催化过程中Cu物种从催化剂上的溶出,从而提高了催化剂的稳定性.本研究为设计高效稳定的NO_(3)RR催化剂提供了新思路.

HIGH TEMPERATURE SHAPE MEMORY EFFECT AND PRE-DEFORMATION FOR Ti_(50) Ni_(13) Pd_(37) ALLOY

The dependence of high temperature shape memory effect on the pre-deformation tempera- ture of the Ti_(50)Ni_3Pd_(37) alloy has been studied.This alloy,of which the reverse transformation start temperature on heating is 620 K,has both one-way and two-way shape memory effects. The maximum shape memory strain of the ahoy may be obtained under pre-deformation in the range of 620 to 640 K.This seems to be related to the minimum recoverable strain energy emerged from the above mentioned temperature range.

AN APPROACH TO ALL-ROUND SHAPE MEMORY EFFECT IN Ti-51Ni ALLOY

A possible mechanism of all-round shape memory behaviour hy help of a physical model pro- posed by Muller has been ascertained.The all-round shape mernory effect can be due to the fact that stress induced martensite of two different orientations is formed during the martensitic transformation in the outer and inner layers of the specimen respectively.

Experimental investigation of the cyclic degradation of the one-way shape memory effect of NiTi alloys

Based on stress-and strain-controlled cyclic tension-unloading-heat-cooling tests,cyclic degradation of the one-way shape memory effect(OWSME)of NiTi shape memory alloys(SMAs)was investigated.It was seen,in thermo-mechanical coupled cyclic tests,that residual strain after each cycle accumulated,but the martensite reorientation stress and dissipation energy-per-cycle decreased as the number of cycles increased.Meanwhile,the cyclic degradation of OWSME was aggravated by increasing the stress/strain amplitude.In addition,the stress-strain response of NiTi SMAs was further investigated by performing simultaneous thermo-mechanical coupled cyclic tests with various phase-angle differences between the mechanical and thermal cyclic loadings.It can be concluded that such cyclic response depends significantly on prescribed phase-angle differences.Obtained experimental results are helpful for both the development of constitutive models and engineering applications of NiTi SMAs.

EFFECT OF HEAT TREATMENTS ON THE MICROSTRUCTURE AND TRANSFORMATION CHARACTERISTICS OF TiNiPd SHAPE MEMORY ALLOY THIN FILMS

Microstructure and phase transformation behaviors of the film annealed at different temperatures were studied by X-ray diffractometry （XRD）, transmission electron microscopy and differential scanning calorimeter （DSC）. Also tensile tests were examined. For increasing annealed temperature, multiple phase transformations, transformations via a B19-phase or direct martensite/austenite transformtion are observed. The TiNiPd thin film annealed at 750℃ had relatively uniform martensite/austenite transformtion and shape memory effect. Martensite/austenite transformtion was also found in strain-temperature curves. Subsequent annealing at 450℃ had minor effect on transformation temperatures of Ti-Ni-Pd thin films but resulted in more uniform transformation and improved shape memory effect.

利用“球化效应”激光扫描制备球形Ti粉的研究

利用'球化效应',在SLS设备上探索将异形Ti粉转化为高性能球形粉末的可行途径。通过系统地改变激光功率、扫描速度,以及选取合适的激光扫描间距,探明了形成'球化效应'的工艺条件,并在激光功率为600W,扫描速度为30mm/s时,获得了较为理想的球形Ti粉。通过对球化过程进行理论分析,得出了选取激光扫描制备球形Ti粉工艺参数的准则。

Ti-Ni-Cu形状记忆合金的温度记忆效应

采用差示扫描量热仪研究了Ti50Ni35Cu15以及Ti50Ni45Cu5(摩尔分数,%)形状记忆合金的温度记忆效应。结果表明:温度记忆效应仅在Ti-Ni-Cu合金的逆转变加热过程出现,在单斜结构马氏体与母相逆相变(B19′→B2)及正交结构马氏体与母相逆相变(B19→B2)过程中均能发生温度记忆效应;在随后的完全循环过程中,温度记忆记忆效应不再出现,DSC相变曲线又“恢复”到其原始形态;而在马氏体相变冷却过程中未发现温度记忆效应。分析表明,不完全相变过程中的弹性能再分布是可能的温度记忆效应机制。

Al-Ti-B晶粒细化合金中的有效形核相

研究了ＡｌＴｉＢ晶粒细化合金中各化合物相ＴｉＡｌ３、ＴｉＢ２和ＡｌＢ２对铝晶粒的细化作用。结果表明，ＴｉＡｌ３相是有效形核相，ＴｉＢ２和ＡｌＢ２相不能单独作为形核相，Ｂ对ＡｌＴｉＢ的细化作用有显著影响，但Ｂ及硼化物不能单独影响细化过程，而是富集在ＴｉＡｌ３相中对细化过程产生重要影响。

XRF法快速测定铁钛精矿中的Fe、Ti品位

介绍了XRF法(X射线荧光)在快速测定铁钛精矿样中Fe、Ti品位中的应用,用IED2000P型快速X荧光分析仪,分析目标元素特征X射线计数率与含量的关系,主要研究了基体效应对测量结果的影响。通过比较,选用特散比与经验系数法相结合做三元回归计算的数理模型,可较好地校正基体效应,其分析结果相对误差在0.2%以内,达到了实际生产的要求。

Ti-15Mo-3Al-2.7Nb-0.2Si钛合金强化效应与机理研究

主要研究了Ti-15Mo-3Al-2.7Nb-0.2Si钛合金在形变条件、不饱和固溶条件、过饱和固溶条件下的强度变化规律,分析了不同时效条件下合金的硬度变化原理,获得了该合金的强化效应与组织状态的关系。并通过对断口形貌等分析,论述了不同相变及组织状态对合金强化的作用,揭示了Ti-15Mo-3Al-2.7Nb-0.2Si钛合金强化过程及其形成机理。

多弧离子镀Ti-N镀膜的扩散屏障作用

设计了３种复合镀层系，研究了多弧离子镀Ｔｉ－Ｎ镀膜对Ａｌ，Ｎｉ，Ｃｏ的扩散屏障作用及Ｔｉ－Ｎ镀膜在１０００和１１００℃长期时效时的热稳定化结果表明，在１０００℃以下时效时，Ｔｉ－Ｎ镀膜稳定性良好，并可有效地阻止Ａｌ向基材扩散，可减缓、阻止Ｎｉ，Ｃｏ在ＣｏＣｒＡｌＴａＹ涂层与基体间的互扩散行为；在１１００℃时效时，Ｔｉ－Ｎ镀膜未分解，也不与基材及ＣｏＣｒＡｌＴａＹ涂层间发生互扩散，但组织形态由薄膜变为颗粒状，颗粒状Ｔｉ－Ｎ无法阻止Ｎｉ，Ｃｏ在ＣｏＣｒＡｌＴａＹ涂层与基材间的互扩散．

Ti/N对低碳贝氏体钢组织和力学性能的影响

研究了Ti/N对一种工程机械用高强度低碳贝氏体钢组织和力学性能的影响。研究结果表明,Ti/N值可明显影响钢中酸溶硼的收得率和力学性能。Ti/N在3.3以下时,酸溶硼的收得率小于50%;Ti/N大于3.6时酸溶硼收得率在75%以上;Ti/N超过4时,酸溶硼的收得率趋于90%,并不再有明显提高。随Ti/N的增加钢板的性能合格率明显提高,增加Ti含量,提高Ti/N是提高硼收得率进而提高性能合格率的比较经济有效的方法。

Ti-22Al-26Nb合金的高温氧化行为

采用热重法研究Ti-22Al-26Nb合金在800和900℃的高温氧化行为。利用X射线衍射分析(XRD)、扫描电镜(SEM)对氧化膜的相组成和形貌进行分析。结果表明:在氧化初期该合金遵循抛物线规律,而20h以后,合金的氧化动力学符合直线规律。氧化后的产物主要由TiO2、AlNbO4和Nb2TiO7组成,氧化膜出现了分层结构且氧化温度愈高,分层愈明显。

Ti-Al系金属间化合物多孔材料的制备和性能

使用粉末冶金模压成形和无压反应烧结方法,制备出Ti-Al系金属间化合物多孔材料,研究了铝含量对其孔隙形成机理以及孔结构性能的影响.结果表明:烧结后Ti-Al合金坯块发生了显著的体积膨胀;最大孔径和开孔隙率都随着铝含量的增加而增大,当铝含量(质量分数)超过60%时,总孔隙率出现下降趋势;Kirkendall效应导致的钛铝元素偏扩散反应是体积膨胀和孔隙形成的主要原因.

Ti-MWW分子筛钛氧活性中心与溶剂分子吸附作用的理论研究

采用密度泛函理论方法,研究了钛硅分子筛Ti-MWW与H2O2所形成的钛氧活性中间体的结构,以及溶剂分子吸附对其几何结构和电子结构的影响。结果表明,骨架Ti与H2O2作用生成两种钛氧活性中间体,即五元环的Ti-η1-OOH和三元环的Ti-η2-OOH,骨架Ti中心可再吸附一个溶剂分子,形成六配位络合物结构,不同溶剂分子的吸附能力为H2O〉CH3OH〉CH3CN。两种钛氧活性中心与溶剂分子的吸附作用略有不同,表现为Ti-η1-OOH〉Ti-η2-OOH,而Ti的落位也对吸附效应有很大影响,T1位点的Ti中心与溶剂分子的吸附作用明显强于T3位点的Ti中心。溶剂分子吸附还将影响活性氧的亲电性和催化活性。计算结果表明在Ti-η2-OOH活性中心吸附CH3CN可降低氯丙烯环氧化反应的活化能。