Cu-Sn-Ti合金的微观结构和磨削性能研究

通过在铜锡合金中加入TiH_(2)制备出Cu-Sn-Ti合金,研究了TiH_(2)的添加量对青铜合金组织形貌、磨削性能的影响,并讨论了TiH_(2)的作用机理。结果表明:在青铜合金中添加TiH_(2)能够有效降低合金的烧结温度,当TiH_(2)的添加量>9 vol%时,可以明显检测到TiH_(2)的衍射峰;在相同条件下,随着TiH_(2)添加量的增加,合金组织的晶粒先增大后减小,最后趋于稳定,合金的硬度先减小后增大,最后又减小。当TiH_(2)的添加量为12 vol%时,TiH_(2)对合金晶粒的细化和组织均匀分布的促进作用达到最佳,合金的硬度达到最大,为75.2(HR 15 N),合金的耐磨性最好。当TiH_(2)含量低于12 vol%时,一定含量的TiH_(2)在青铜钛合金烧结的过程中可以通过抑制晶界偏析细化晶粒,促进合金组织均匀分布,有利于改善合金的磨削性能。

ZnO-MgO-TiO_2-SnO_2系高频介电陶瓷的制备与介电性能

在ZnO-TiO2-SnO2陶瓷基础上,掺杂MgO得到(1-x)ZnO-xMgO-0.88TiO2-0.12SnO2系新型介电陶瓷。对其相转变、微观组织结构和高频介电性能进行了研究,结果表明,在不加入任何烧结助剂情况下,试样可于1 080℃达到烧结,其相对密度为94.4%;当x=0.05时,陶瓷为纯相尖晶石结构(Zn0.95,Mg0.05)2(Ti0.88,Sn0.12)O4,其介电性能优良,1 MHz时ε=18.88,tanδ=5×10-4,τε=2.89×10-6/℃,可用作高频电容器材料的优秀候选材料。

Ti3Zr2Sn3Mo25Nb钛合金表面细晶的表征方法

采用超声冲击的方法对Ti3Zr2Sn3Mo25Nb钛合金进行表面强化,采用扫描电镜、透射电镜、电子背散射衍射仪、X射线衍射仪等设备对其表面细晶进行表征。结果表明:超声冲击后,钛合金表面获得了深度约为35μm的强塑性变形层;钛合金表面可观察到明显纳米级的非晶团簇和密集的滑移线,细晶形成的主要原因为位错滑移,位错滑移的主方向为<111>;超声冲击后,材料的表面残余压应力约为250 MPa,晶格常数略有降低,β相的特征峰强度变大,α相的特征峰宽度变大。

Microstructure evolution and mechanical properties of laser additive manufactured Ti-5Al-2Sn-2Zr-4Mo-4Cr alloy

The microstructure, microhardness and tensile properties of laser additive manufactured (LAM) Ti?5Al?2Sn?2Zr?4Mo?4Cr alloy were investigated. The result shows that the microstructure evolution is strongly affected by the thermal history of LAM process. Primary α (αp) with different morphologies, secondary α (αs) and martensite α' can be observed at different positions of the LAMed specimen. Annealing treatment can promote the precipitation of rib-like α phase or acicular α phase. As a result, it can increase or decrease the microhardness. The as-deposited L-direction and T-direction specimens contain the same phase constituent with different morphologies. The tensile properties of the as-deposited LAMed specimens are characterized of anisotropy. The L-direction specimen shows the character of low strength but high ductility when compared with the T-direction specimen. After annealing treatment, the strength of L-direction specimen increases significantly while the ductility reduces. The strength of the annealed T-direction specimen changes little, however, the ductility reduces nearly by 50%.

Preparation of (Ti, Sn)O_2 Nano-Composite Photocatalyst by Supercritical Fluid Dry Combination Technology

A series of TiO2-SnO2 nano-sized composite photo-catalysts containing Sn (9.3%-30.1%) were prepared from TiCI4 and SnCl4·5H2O by using sol-gel, supercritical fluid dry and solid-phase reaction (SCFD) combination technology. Characterizations with X-ray diffraction (XRD), transmission electron microscopy (TEM) and Fourier Transform Infrared Spectroscopy (FTIR) showed that, in addition to anatase type TiO2, a new active phase (Ti, Sn)O2 (with particle size of 2.0-4.3 nm) formed, and there were no SnO2 crystals observed in the range of the doping concentration studied. Photo-catalytic reaction of phenol was used as a model reaction to evaluate the catalytic activities of the obtained catalysts. Compared with pure TiO2 or Ti-Sn catalyst prepared with general sol-gel method, Ti-Sn nano-composite photo-catalyst thus obtained showed significant improvement in catalytic activity. The photo-catalytic degradation rate of phenol could reach as high as 93.5% after 7 h. The preparation conditions of the new phase (Ti, Sn)O2 were investigated and its catalytic mechanism was proposed. The photo-catalytic particles prepared using SCFD combination technology exhibited small particle size, large surface area and high activity.

Characteristics of Faigue Crack Initiation in Ti-5Al-4Sn-2Zr-1Mo-0.7Nd-0.25Si Alloy

The characteristics of fatigue crack initiation in Ti-5AI-4Sn-2Zr1Mo-O.7Nd-O.25Si alloy wereStudied. Two modes Of fatigue crack initiation were found. The Nd-rich phase particles displaybetter resistance to fatigue crack initiation than the matrix at lower stress.

超临界流体干燥法制备纳米TiO_2-SnO_2-SiO_2复合光催化剂及其光催化性能研究

TiO2-SnO2-SiO2 nanocomposite photocatalysts were prepared with Na2SiO3·9H2O, SnCl4·5H2O and TiCl4 as precursors by chemistry coating processes and supercritical fluid drying (SCFD) method. Characterizations with XRD, TEM, NMR and FTIR showed that in addition to anatase type TiO2, a new active phase(Ti,Sn)O2 was also formed in the range of the studied doping concentration, The catalytic activity was evaluated by photocatalytic degradation of phenol as model reaction. SiO2 remained amphorous at all samples. It could prevent from growth of the size of nanopaticle and transformation from anatase to rutile. Compared with pure TiO2, or TiO2-SnO2 catalyst prepared by Sol-gel method, Nano-composite photo-catalyst showed significant improvement in catalytic activity, the photo-catalytic degradation rate of phenol in 7 h reached 88.7%. Application of the composite catalysts for the photocatalytic decomposition of phenol not only gave the same activity relative to pure ultrafine TiO2, but also reduced cost. The experimental results also proved that the thermal stability of TiO2 was greatly enhanced after mixing with small amount of SiO2. The optimized doping of SiO2 was 20.3%. The photo-catalyst prepared by SCFD combination technology was characterized with smaller particle size, larger surface area and higher activity.

多孔Ti3Zr2Sn3Mo25Nb钛合金表面活性次级微孔涂层的制备及其成骨性能

为提高多孔医用钛合金的生物活性,以实现快速骨整合,首先利用微弧氧化法在多孔Ti3Zr2Sn3Mo25Nb(TLM)合金表面制备出含Ca、P的次级微孔涂层,并通过水热处理在此涂层表面生成羟基磷灰石。通过XRD、SEM和EDS分析了活性次级微孔涂层的相组成、微观形貌和元素特征,通过接触角测试试验对比研究了TLM合金表面改性前后的亲水性变化,并进一步通过动物试验检测了表面活性次级微孔涂层改性后多孔TLM合金的成骨性能。结果表明,微弧氧化处理可在多孔TLM表面形成规整的含Ca、P相的次级微孔层,水热处理后次级微孔层的亲水性增强,且具有良好的成骨诱导性能。

CuO/Sn_(0.8)Ti_(0.2)O_2催化剂的表征及对NO+CO反应活性研究

如何有效地消除NOx对环境造成的污染一直是全球研究的热点。近年来，用廉价的金属或金属氧化物取代贵金属在环境催化领域一直是人们关注的方向；SnO2和TiO2其有独特的电子构型和化学性质，在催化脱除NO的研究中引起了人们极大的兴趣。

Sn_(0.5)Ti_((0.5)O_2固溶体的溶胶-凝胶法制备、表征及其热稳定性研究

采用溶胶 -凝胶法制备了 Sn0 .5Ti0 .5O2 固溶体 .用 X射线衍射 ( XRD)、差热分析 ( DTA)和红外 ( IR)技术对材料的结构和热稳定性进行了分析表征 .固溶体的热稳定性与起始反应温度有关 ,在 40℃水浴温度下制备的凝胶经 1 0 0 0℃烧结 ,发生了相分解 ,出现了富 Sn和富 Ti相 ,而在 80℃水浴温度下制备的凝胶经1 2 0 0℃烧结也不发生相分解 ,仍以 Sn0 .5Ti0 .5O2 相存在 ,而且用差热分析也得到了同样的结论 .

块体非晶合金Cu_(58)Zr_(30)Ti_(10)Sn_2的形成与晶化行为研究

采用铜模吸铸法制备了直径为2～3mm的圆柱状Cu60-xZr30Ti10Snx(x=0、1、2)块体非晶合金。用X射线衍射(XRD)和差式扫描量热仪(DSC)研究了非晶合金的结构、热稳定性和晶化特征,非晶合金Cu60-xZr30Ti10Snx的特征温度Tg、Tx、△Tx=(Tx-Tg)均与Sn含量相关。块体非晶合金Cu58Zr30Ti10Sn2的Tg为703.9K、Tx为755.5K、△Tx约为51.6K。这些特征温度随DSC升温速率的增大,不断向高温区偏移,其中晶化行为的这种动力学效应比其玻璃转变的更为显著。由Kissinger法获得的块体非晶合金Cu58Zr30Ti10Sn2的玻璃转变激活能Eg为3.30eV、晶化激活能Ex为3.17eV、第一晶化峰激活能Ep1为2.82eV、第二晶化峰激活能Ep2为3.13eV。由Ozawa法获得的各激活能比Kissinger法的相应数值稍偏低,但趋势是一致的。

Ti/SnO_2电极在苯酚废水降解中的应用

采用热分解法制备了Ti/SnO_2电极,以苯酚为目标污染物,研究苯酚废水在电极上电解的最佳条件、电解一定时间后的电压以及电极的寿命。结果表明,在电流密度为190 A/m2和pH值为2的条件下,苯酚溶液初始质量浓度为70 mg/L,电解350 min后,苯酚和COD的降解效率最高,分别为96.80%和40%,苯酚被降解为中间产物,没有被彻底矿化为CO_2和H_2O,此时的电压为8 V。在25℃,0.5 mol/L的H_2SO_4水溶液中、恒流500 A/m2条件下对电极的寿命测试,电极寿命仅仅为8 h,寿命较短。

用于冠脉支架的Ti3Mo2Sn3Zr25Nb合金研究

血管支架植入术是冠心病介入治疗的常用手段,钛合金由于具有比强度高、耐蚀性好、生物-力学相容性优良等优点,因此是金属类冠脉支架产品的首选材料。针对不含毒性元素的新型生物医用β型Ti3Mo2Sn3Zr25Nb合金进行了较为系统的研究,同时阐述了该合金的塑性变形与强化机制,分析了不同形变下合金的应力-应变曲线,讨论了热处理工艺对Ti3Mo2Sn3Zr25Nb合金微观组织和性能的影响,明确了冠脉支架用Ti3Mo2Sn3Zr25Nb合金的加工工艺,也为其他β型钛合金加工提供参考和借鉴。同时,还开展了Ti3Mo2Sn3Zr25Nb合金的生化腐蚀率、溶血率和细胞毒性的检测,以及材料在动物体内的试验,较为全面的评价了该合金的生物相容性,为其在生物医学领域的应用起到了积极的推进作用。

热处理对Ti35Nb2Sn6Zr3Mo合金组织与性能的影响

依据d-电子理论设计了低弹性模量、中高强度、良好塑性和生物相容性的新型生物医用近β型Ti35Nb2-Sn6Zr3Mo合金,研究了固溶温度和时效温度对合金组织和力学性能的影响。结果表明:随固溶温度的升高,合金的平均晶粒尺寸逐渐增大,650℃以上固溶时,得到单一等轴β晶组织;固溶温度对合金的强度和弹性模量的影响并不明显。随时效温度的升高,由于Ti35Nb2Sn6Zr3Mo合金的β相稳定性较强,析出α相的含量较少,从而导致合金的力学性能对时效温度并不敏感。

Sn0.5Ti0.5O2固溶体薄膜的制备及其气敏特性研究

采用溶胶凝胶法制备了Sn0.5Ti0.5O2固溶体.用X射线衍射(XRD)和红外(IR)技术对材料的结构和热稳定性进行了分析表征.固溶体的热稳定性与起始反应温度有关,40℃水浴制备的凝胶经过1000℃烧结就发生了相分解,出现了富Sn、富Ti相,而80℃水浴制备的凝胶经过1200℃烧结也不发生相分解,仍以Sn0.5Ti0.5O2相存在.将胶体制成了薄膜元件并测试了元件的气敏性能,发现此元件对H2S气体有一定的灵敏度.

近β型钛合金Ti3Zr2Sn3Mo15Nb的形状记忆效应和超弹性研究

采用弯曲和循环拉伸实验研究了新型Ti-3Zr-2Sn-3Mo-15Nb（TLM）钛合金的形状记忆和超弹性特性，探讨了变形温度、总应变和热处理对TLM钛合金形状记忆和超弹性的影响规律。实验结果表明新合金在热轧态和在α＋β两相区固溶处理后比从β单相区固溶处理后具有较高的形变恢复率，最大可恢复应变可达1．8％．随着总变形应变增加，形变恢复率降低。从β相区固溶处理后TLM合金具有较好的超弹性，优于热轧态或时效处理后TLM合金的超弹性能。

Synthesis and electrochemical properties of Zn_2SnO_4 and Zn_2Sn_(0.8)Ti_(0.2)O_4/C

Compound Zn2Sn0.8Ti0.2O4 was synthesized by a hydrothermal method in which SnCl4-5H2O,TiCl4,ZnCl2 and N2H4-H2O were used as reactants.The composite Zn2Sn0.8Ti0.2O4/C was then prepared through a carbothermic reduction process using the as-prepared Zn2Sn0.8Ti0.2O4 and glucose as reactants.The structure,morphology and electrochemical properties of the as-prepared products were investigated by XRD,XPS,TEM and electrochemical measurements.In addition,electrochemical Li insertion/extraction in composite Zn2Sn0.8Ti0.2O4/C were examined by ex situ XRD and SEM.The first discharge capacity of Zn2SnO4 is about 1670.8 mA-h/g,with a capacity retain of 342.7 mA-h/g in the 40th cycle at a constant current density of 100 mA/g in the voltage range of 0.05-3.0 V.Comparing with the Zn2SnO4,some improved electrochemical properties are obtained for Zn2Sn0.8Ti0.2O4,Zn2SnO4/C and Zn2Sn0.8Ti0.2O4/C.The composite Zn2Sn0.8Ti0.2O4/C shows the best electrochemical properties,and its first discharge capacity is about 1530.0 mA-h/g,with a capacity retain of 479.1 mA-h/g the 100th cycle.

MO2（M=Ti,Ge,Sn）晶体中替位V4+自旋哈密顿参量研究

基于离子簇模型，应用斜方畸变八面体中3d^1电子的EPR参量微扰公式，研究了MO2（M=Ti，Ge，Sn）晶体（金红石型）中替位V^4＋的EPR参量，发现由于V^4＋取代晶体中阳离子而引起的姜泰勒（Jahn—Teller）效应，将导致杂质离子局部结构形成微小压缩八面体．进一步考虑了配体轨道及旋轨耦合作用和杂质离子周围的畸变对自旋哈密顿参量的贡献，结果与实验符合的更好．

A_2BF_6:Mn^(4+)红色荧光粉的研究(A:K,Na,Cs;B:Si,Ge,Sn,Ti)

阐述了Mn4+离子掺杂的复合氟化物A2BF6(A:K,Na,Cs;B:Si,Ge,Sn,Ti)红色荧光粉的制备方法以及此类材料结构性能和光学性能。氟化物具有低声子能量、高熔点、物相稳定等特点,而低声子能量的特点能够减少离子激发态的猝灭,提高发光效率[1]。Mn4+离子的3d-3d跃迁明显受晶体场的影响。

氟掺杂Ti/SnO_2电极电催化降解全氟辛酸性能研究

采用溶胶-凝胶法制备Ti/Sn O_2-F电极,进行全氟辛酸(PFOA)电氧化降解的研究,实验考察了F替代Sb掺杂、电流密度、初始pH值和支持电解质对PFOA降解效率的影响。结果表明,当F替代Sb掺杂Sn O_2,电流密度为20 m A/cm^2,初始pH值3.7,支持电解质为NaClO_4时,电解30 min后PFOA的降解率达98%。采用液相色谱-质谱联用(HPLC-MS/MS)和离子色谱(IC)对PFOA降解产物进行分析,解析了PFOA电氧化降解的反应机理。