Al2O3-ZrO2-YAG复相粉末的低温合成研究

用低温原位合成技术制备了Al2O3-ZrO2-YAG复相粉末,在1100℃,5h热处理后,Al-Zr-Y-O体系中的主相为ZrO2四方相,其余为无定形相,表明ZrO2抑制了Al2O3和YAG晶粒的生长,同时Al2O3和YAG抑制了ZrO2从四方相向单斜相的转变.在1580℃,1h热处理后,Al-Zr-Y-O体系中的复相组成为(115+90x)Al2O3+54(Y2O3)x·ZrO2+(32-36x)YAG,其中0 ≤x＜0.88(mol).     

Gd2Ti2O7/ZrO2（3Y）陶瓷制备及力学性能研究

用共沉淀法合成Gd2Ti2O7纳米粉体,经真空烧结制备不同ZrO2(3Y)含量的Gd2Ti2O7/ZrO2(3Y)陶瓷。用XRD、SEM和力学性能试验等测试手段研究样品的物相、形貌和力学性能。结果表明:Gd2Ti2O7/ZrO2(3Y)陶瓷的力学性能随ZrO2(3Y)含量增加显著提高,ZrO2(3Y)含量为90vol%时,样品的维氏硬度、抗弯强度和断裂韧性最大值分别达到20.95GPa、199.21MPa和8.17MPa·m1/2。其原因是ZrO2(3Y)固溶导致晶粒尺寸减小,过饱和析出ZrO2(3Y)的颗粒弥散增韧,以及ZrO2(3Y)应力诱导相变增韧作用。     

包覆氧化锆对氮化硅力学性能的影响

以氮化硅粉体为原料,添加30wt;的ZrO2和8wt;的稀土氧化物Y2O3为烧结助剂.将Y2O3添加到稀的硝酸中形成硝酸钇透明溶液,并加入ZrO2形成硝酸钇包覆ZrO2的悬浮液,研究在硝酸钇包覆ZrO2的情况下对氮化硅力学性能的影响.实验结果表明在1700℃、30 MPa的热压环境下,在包覆ZrO2的作用下氮化硅陶瓷的致密度从74;提升到97;,断裂韧性从4.3 MPa·m1/2提升到6.0 MPa·m1/2.     

ZrO2 (Y2O3) 增韧SiC中介结合的金刚石聚晶烧结体的相结构与性能

本文采用恒沸腾水解法制备了颗粒度均一的亚微米晶ZrO2 (Y2O3)粉体,并以其为增韧相,在高温(1350℃)超高压(5GPa)条件下制备ZrO2 (Y2O3)+SiC+金刚石的聚晶烧结体(PCD).用XRD、SEM背散射分析、冲击韧性测定和磨耗比测定研究了不同含量Y2O3稳定的ZrO2粉体对SiC-金刚石聚晶烧结体结构及机械性能的影响,结果表明:ZrO2 (Y2O3)粉体中Y2O3含量＜2.2mol;时,ZrO2以四方t相+单斜m相的混合相形式存在于烧结体的结合剂基体上,t相量随Y2O3含量增加而增加,对SiC-金刚石聚晶烧结体的增韧来源于相变增韧和微裂纹增韧的叠加,当Y2O3含量＞2.2mol;时,ZrO2以100;t相存在,增韧机制为相变增韧.在2.0mol;～2.2mol;Y2O3含量范围内,PCD可获得较高的磨耗比和冲击韧性.     

低温燃烧-烧结法制备多孔Al2O3/ZrO2(Y2O3)陶瓷

用低温燃烧合成的陶瓷粉体为原料,在1450℃下烧结制备了多孔Al2O3/ZrO2 (3mol; Y2O3)陶瓷,并研究ZrO2的外加量(Omol;、1Omol;、15mol;和20mol;)对多孔陶瓷显气孔率、抗弯强度、孔径分布和显微结构的影响.实验结果表明:与其他试样相比,ZrO2外加量为15mol;的试样的显气孔率和抗弯强度都明显提高,其最可几孔径约为1.1 μm.SEM和EBSD图片显示:外加ZrO2能显著影响多孔陶瓷的显微结构,其中外加15mol; ZrO2的多孔陶瓷中,氧化铝晶粒的平均尺寸较小,颈部较厚,这是其具有较高抗弯强度的主要原因.     

Gd2Zr2O7/ZrO2(3Y)复相粒子原位合成的影响因素

采用原位合成法制备了Gd2Zr2O7/ZrO2(3Y)复相粒子.用XRD、SEM、TEM等测试手段分析了物相组成、产物结构和粉体形貌的影响因素.结果表明:当溶液初始浓度0.05 mol· L-1,体系温度0℃,滴定速率2 mL/min,pH=10,添加1wt;的十二烷基苯磺酸钠(SDBS)作为分散剂,经1000℃煅烧2h,获得样品的结晶度完整,颗粒较均匀,形貌近球形,粒径约50 nm,经衍射斑点分析Gd2Zr2O7为面心立方晶系,ZrO2(3Y)体心四方晶系,其中前者品格di11面的间距为0.304 nm.背散射电子像的明和暗相区分别显示出存在单相的Gd2Zr2O7和ZrO2(3Y)粒子.     

Fe3Al/HAP生物陶瓷的制备及力学性能

本文采用化学沉淀法制备了羟基磷灰石(HAP)纳米粉体,利用铁粉和铝粉经过高能机械球磨和热处理工艺制备了金属间化合物Fe3Al粉体;将制备的HAP粉体为基体按质量百分含量加入4;的Fe3Al粉体,经过球磨分散得到复合粉体,然后经过冷压成型和160MPa冷等静压成型及1200℃真空无压烧结,得到羟基磷灰石与金属间化合物Fe3Al的生物复合材料.通过XRD、SEM等测试方法揭示了材料的相组成及微观结构,研究结果表明:采用化学沉淀法制备的羟基磷灰石粉体粒径在100纳米以内,结晶度高、粒度均匀,纯度高;Fe3Al质量含量为4;的Fe3Al/HAP生物复合材料HAP的基本晶体结构没有因为Fe3Al的加入而发生变化,其抗弯强度为89.6MPa,较纯羟基磷灰石陶瓷有了较大的提高,证明Fe3Al增强HAP是有效的.     

感应区熔法制备Al2O3/MgAl2O4/ZrO2共晶陶瓷

利用感应区熔法制备了Al2O3/MgAl2O4/ZrO2共晶陶瓷.当坩埚壁温为2200℃、行走速度为2mm/h时,制备了φ10 mm ×62 mm表面光滑致密的陶瓷样品.扫描电镜微观组织图显示Al2O3相和MgAl2O4相为基体相,ZrO2相以棒状镶嵌在基体中.定向凝固共晶陶瓷硬度和断裂韧性达到12 GPa和6.1 MPa·m1/2,为预烧结体的2倍和1.7倍.气孔和晶界的消失及细小规整ZrO2相在基体中的弥散分布,有效提高了材料的硬度和断裂韧性.     

稀土对Al2O3-TiC/Fe基金属陶瓷材料性能的影响

以TiC、C、Mn、Ni、Mo、α-Al2O3微粉和还原Fe粉为主要原料,采用粉末冶金方法制备Al2O3-TiC/Fe金属基陶瓷材料.利用管式真空烧结炉(φ150 mm)高真空(2.5 Pa)烧结,烧成温度为1530℃,保温时间90 min.研究探讨不同稀土添加剂对试样吸水率及体积密度的影响,揭示材料的耐磨性能,以及稀土添加剂对试样的显微组织影响.试验表明:在以上条件下,添加0.3;的Y2O3时,Al2O3-TiC/Fe基金属陶瓷材料的吸水率和体积密度达到了最佳状态,分别为0.0310;和6.7770g/cm3,此时材料的耐磨性能得到提高.     

Al2O3/Y2O3复合助剂对碳化硅蜂窝陶瓷烧结性能的影响研究

以碳化硅为主要原料,以羟丙基甲基纤维素(HPMC)为粘结剂,以Al2O3和Y2O3作为复合烧结助剂,采用挤出成型工艺制备出碳化硅多孔蜂窝陶瓷.探究了复合助剂Al2O3/Y2O3的加入量对蜂窝陶瓷物相组成和微观形貌的影响;研究了烧结温度对碳化硅陶瓷物相、微观形貌以及孔隙率、线收缩率、体积密度、抗压强度的影响规律.结果表明:Al2O3/Y2O3复合助剂的加入量增大和烧结温度的提高,陶瓷液相量增多;在钇铝石榴石(YAG)的共晶点1760 ℃附近,更易于析出结晶形成YAG相.烧结温度升高,陶瓷收缩率增大;体积密度和抗压强随烧结温度变化规律接近;体积密度和抗压强度在1750℃达到最大值分别为1.8 g/cm3和14.09 MPa.     

A review of measurement of thermophysical properties of silicon melt

Measurements of thermophysical properties of Si melt and supplementary study of X-ray scattering/diffraction by the authors' group were reviewed. The values obtained differed variously from those of literature. Density was 2–3% larger, surface tension 20–30% smaller, viscosity up to 40% larger, electrical conductivity 8% smaller, spectral emissivity more or less in good agreement with literature values, and thermal diffusivity a few percent larger. An anomalous density jump was found near the melting point. Surface tension and viscosity also showed anomaly. A strange time-dependent change of density was observed over 3 h after melting. X-ray analyses suggested a slight change in local atom ordering, but showed no sign of cluster formation. An addition of 0.1 at% gallium caused the density jump to disappear, while that of boron caused no change. An EXAFS study of the former melt indicated a strong interaction between Ga and Si atoms as if molecules of GaSi₃ existed. The implications of the measured properties are a possibility of soft-turbulence in an Si melt in a relatively large crucible, a more complicated manner of intake of oxygen depleted molten Si from the free surface region to underneath the growing crystal, and a relaxation of the melt after melting arising from trapped gas species.     

Effect of alumina on enthalpy of mixing of mixed alkali silicate glasses

The enthalpy of mixing of mixed alkali (Na₂O and K₂O) silicate glasses containing various concentrations of alumina was determined using an ion-exchange equilibrium method. For glasses with a constant alkali concentration, the enthalpy of mixing was found to become less negative with alumina addition. Consistent with our previous results on the enthalpy of mixing of alumina-free mixed alkali silicate glasses, the magnitude of enthalpy of mixing exhibited a good correlation with the molar volume mismatch of the corresponding two single alkali glasses as well as with the extent of conductivity mixed alkali effect, e.g. excess activation energy of conductivity, ΔE. The reduction of the magnitude of the enthalpy of mixing with alumina addition can be attributed to the reduction of non-bridging oxygen and ionic field strength. Combining the present results with results obtained earlier, the magnitude of the enthalpy of mixing for all mixed alkali (Na₂O and K₂O) silicate glasses with and without alumina was expressed by a simple function of a modified Tobolsky parameter, which takes into account the alkali concentration and the difference in cation-to-effective anion distances. The enthalpy of mixing data of the mixed alkali glasses was then compared with reported experimental data on the conductivity of mixed alkali aluminosilicate glasses. What appears to be conflicting experimental data can be understood in terms of the magnitude of the enthalpy of mixing and we can conclude that the mixed alkali effect is closely correlated with the negative enthalpy of mixing.     

Mesomorphism Dependence on the Position of Substitution of a Pair of Esters

A novel homologous series of ethylene derivatives of thermotropic liquid crystals has been synthesized. The methoxy to octyloxy derivatives are nematogenic, the decyloxy to tetradecyloxy derivatives are smectogenic, in addition to nematogenic, and the hexadecyloxy homologue is smectogenic only. All the members of the series are enantiotropically mesogenic. Thermotropic behavior was determined by an optical polarizing microscope equipped with a heating stage and Differential Scanning Calorimetry (DSC) study. Analytical and spectral data confirm the molecular structures of homologues (infrared, nuclear magnetic resonance, mass spectra, X-ray, and DSC data). Textures of the nematic phase are threaded or Schlieren and that of smectic phase are focal conic fan-shaped of smectic A or C. Transition curves of the phase diagram behave in a normal manner except one or two deviations from the normal trend. The mesophase range (Sm+N) varies from 3°C to 44°C. The average thermal stability for smectic is 93°C and that for nematic 117.4°C. The LC behavior of the novel series is compared with a structurally similar known series.     

原位氮化法制备TiN纳米粉体

用溶胶凝胶法合成的纳米TiO2粉体作为原料,将该粉体在氨气中进行原位氮化制备了TiN纳米粉体.用XRD,TEM,化学分析等手段对合成的TiN纳米粉体的物相组成、形貌、成分进行了分析.实验分析表明:在1000℃和1100℃下分别氮化5h,可以制备粒径大约为40nm和80nm的TiN粉体,其TiN的含量分别为95.40;和98.37;;而在1000℃条件下氮化时间减少到2h时,TiN的含量仅为58.36;.氮化温度和氮化时间是合成纳米TiN的重要因素,提高合成温度和延长氮化时间均可形成纯度较高的TiN纳米粉体,但延长氮化时间更有利于获得粒径小的氮化钛粉体.     

立方晶系晶体本征铁弹相变序参量的选取

在本征铁弹相变的软模理论的基础上,依据弹性本构关系和居里原理,给出了立方晶系晶体所有可能的自发应变的种类,研究了立方晶系晶体本征铁弹相变序参量的选取问题.以Th群和Oh群为例,阐明了不同类的序参量导致晶体对称性变化相同的的原因,提出了该情况下序参量选取的“就少不就多”的原则.得到了发生本征铁弹相变时所有可能的序参量及晶体的对称性的变化.     

On the influence of structural features of DNA on the possibility of metabolic transfer of electrons

Abstract

A fragment of a DNA molecule is considered as one of the channels of metabolic electron transfer. The heterogeneity of the complementary chains is effectively taken into account. This made it possible to find the speed of the electron injected into the DNA conduction band and the current density that it creates. Estimates of electron mobility in nucleic acid chains are made. They were an order of magnitude smaller than that of typical semiconductors. For the specific conductivity of nucleic acid chains, estimates provide a conductivity of one to two orders of magnitude lower than in graphite.     

Features of transformations in REE-containing systems of nitrate precursors in preparatory processes of formation of multifunctional oxide materials

Abstract

The complex study provides a reliable idea of ??the trends in the joint behavior of structural components in the water-salt systems of nitrate precursors of REE, alkaline, alkaline earth metals in the preparatory stages of the processes of forming multicomponent oxide polyfunctional materials on their basis with thermal activation. Stages of such transformations are revealed; The regularities of complex and phase formation in systems and factors influencing them are determined; A number of physicochemical properties of the intermediate phases formed - coordination lanthanides nitrates: their composition, types of compounds, atomic-crystalline structure, regularities of transformations during heat treatment were studied.     

Growth and characterization of semicarbazone of cyclohexanone

A new organic single crystal of semicarbazone of cyclohexanone (SCCH) has been synthesized and grown as a bulk single crystal by low temperature solution growth technique for the first time in the literature. The grown crystal has been confirmed by X‐ray diffraction and proton nuclear magnetic resonance spectral analyses and also characterized by FT‐ir and FT‐Raman studies. Thermal properties of the grown crystals were studied by thermogravimetric and differential thermal analyses. Optical transmittance was studied by ultraviolet‐visible spectrum and the second harmonic generation property was tested by using Q switched Nd: YAG laser as a source. (© 2006 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

Influence of density of states on optical properties of GaSe thin film

A systematic investigation on the effect of substrate temperature on the structure, optical absorption and density of states of vacuum evaporated gallium monoselenide (GaSe) thin films is reported. The X‐ray diffraction analysis shows an occurrence of amorphous to polycrystalline transformation in the films deposited at higher‐temperature substrates (573K). The compositional analysis is made with Auger Electron Spectroscopy (AES). The thickness of the film (175nm) is measured by a multiple beam interferometery. Optical characteristics of the GaSe sample have been analyzed using spectrophotometer in the photon energy range of 1.0 ‐ 4 eV. The absorption mechanism has been recognized and the allowed indirect as well as forbidden direct transitions have been found. As‐deposited films show two indirect and allowed transitions due to spin‐orbit splitting of the valence band, as reported here for the first time. Low field conduction have enabled us to determine the density of states in amorphous and poly‐GaSe films. The amorphous and polycrystalline GaSe thin films have localized states density values of N (E_F) = 1.686 × 10¹⁷ cm^‐3 eV^‐1 and 1.257 × 10¹⁵ cm^‐3 eV^‐1 respectively. The experimental results are interpreted in terms of variations in the density of localized states due to progressive decrease of the unsaturated bonds during deposition. (© 2004 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

电子显微分析在表征纳米晶体化学组分中的应用

纳米材料的化学组分及含量影响其光、电、声、热、磁等物理性能,电子显微分析是表征纳米晶体化学组分的重要方法之一.本文综述了X-射线能谱(EDS)、X-射线波谱(WDS)、电子能量损失谱(EELS)和选区电子衍射(SAED)等现代电子显微分析技术在表征纳米晶体化学组分、形貌、尺寸和结构等方面的应用及其研究进展,并比较了这些分析方法存在的差异,提出了其应用中存在的不足及今后的研发方向.