材料期刊网

Ti-47Al-2Mn-2Nb-0.8TiB_2合金韧脆转变温度及其应变速率敏感性

王瑜 , 林栋梁 , 刘俊亮 , C.C.Law

金属学报

采用拉伸试验，研究厂不同应变速率（10－5-10－1S-1）下温度对台体积分数为0．8％的TiB2、具有近全片层组织的Ti—47Al—2Mn－2Nb金属间化合物的屈服强度和延伸率的影响，得到合金韧脆转变温度随应变速率升高而升高的变化关系，确定这种含TiB2的TiAL合金的韧脆转变激活能为256kJ／mol这一数值低于无TiB2的合金的韧脆转变激活能（324kJ／mol），接近TiAl合金中原子自扩散激活能结合断口分析和理论计算结果，表明这种含TiB2的TiAl合金韧脆转变过程可能受位错攀移机制控制.

关键词: TIAl , intermetullics , BDT , strain rate

Ti-47Al-2Mn-2Nb合金动态拉伸性能的研究

王瑜 , 林栋梁 , 周元鑫 , 夏源明 , C.C.Law

金属学报

采用自制的Hopkinson拉杆装置，在20—1000s－1应变速率范围内研究了具有近全片层组织的Ti－47Al—2Mn—2Nb合金的拉伸力学性能，并与准静态拉伸性能相比较试验发现动态强度明显高于静态强度，前者和应变速率之间遵循线性关系，后者和应变速率之间遵循半对数线性关系；室温塑性随应变速率变化而波动，但变化范围不大.扫描电镜断口分析结果表明，动态与静态断裂方式都以穿晶解理为主，局部区域伴有沿晶开裂.

关键词: TiAl合金 , SHTB , dynamic tensile properties

77K温度下双相TiAl合金的形变机理

刘俊亮 , 林栋梁 , 王瑜 , C.C.Law , 曹涵清

金属学报

利用透射电子显微镜研究了具有近全片层组织的Ｔｉ－４７Ａｌ－２Ｍｎ－２Ｎｂ合金在液氮（７７Ｋ）温度下变形的微观结构. 结果表明：在层片内部只存在（１／２）〈１１０］普通位错, 但是在γ晶粒内部除了存在（１／２）〈１１０］普通位错外, 也存在〈１０１］和（１／２）〈１１２］超位错. 另外, 在γ晶粒内发现了位错被钉扎后形成的层错偶.

关键词: TiAl合金 , null , null

Ti-47Al-Mn-2Nb合金低温静态和动态拉伸性能及硼的影响

王瑜 , 周元鑫 , 林栋梁 , 夏源明 , C.C.Law

金属学报

采用常规拉伸和Ｈｏｐｋｉｎｓｏｎ拉杆技术, 研究具有近全片层组织形变Ｔｉ－４７Ａｌ－２Ｍｎ－２Ｎｂ合金１８０Ｋ下静态和动态拉伸性能及其受硼的影响. 发现Ｔｉ－４７Ａｌ－２Ｍｎ－２Ｎｂ和Ｔｉ－４７Ａｌ－２Ｍｎ－２Ｎｂ－１Ｂ合金１８０Ｋ下的拉伸强度均比室温度.

关键词: TiAl合金 , null , null , null , null

γ—TiAl合金拉伸形变的热激活参量

王瑜 , 林栋梁 , C.C.Law

金属学报

采用拉伸变形方式，在285—1273K范围内测定了具有近全片层组织的γ－TiAl合金（Ti-47Al-2Mn-2Nb-0.8TiB2）在屈服点的热激活参量：激活体积V,激活焓△H，激活自由焓△G和激活熵△S；据此推断控制γ－TiAl合金拉伸形变的微观位错机制．发现在实验温度范围内，存在着三个温度区间，分别对应三个不同的可能热辅助位错运动机制：在低温温区（285—398K），位错运动阻力主要是Peierls－Nabarro阻力；在中温温区（523—873K），流变应力对温度和应变速率不敏感，但仍是一热激活过程；在高温温区（≥973K），控制塑性变形速率的微观机制是位错攀移此外，还发现激活熵△S随温度变化趋势与激活体积V相似，这在一定程度上也反映热辅助位错运动机制。

关键词: 金属间化合物 , gamma titanium aluminide , tensile deformation , thermal activation , dislocation mechanism

Electronic transport properties of NbC(C)-C nanocomposites

Physical Review B

We report the electronic transport properties of a composite system comprising zero dimensional superconducting NbC(C) nanocapsules and carbon nanofiber matrix. DC susceptibility measurements of the nanocomposite indicate that the critical temperature (T-C) of NbC nanocrystals is 10.7 K. The temperature dependence of electrical resistivity of the specimen pellet follows the Mott's T-1/4 law in a temperature range between T-C of NbC and 300 K, owing to a strong degree of structural disorder in the carbon matrix. Below the T-C of NbC, when the change of its electrostatic energy Delta E is far greater than the thermal energy, an electron will be localized on an isolated NbC nanocrystal at very low temperatures, leading to "Coulomb Blockade." As a result, a collective behavior of the single-electron tunneling effect takes place in a three-dimensional granular superconductors' network composed of the NbC/carbon/NbC tunneling junctions. The superconducting gap of NbC crystals is not found in the current-voltage curves, due to the suppression of surface superconductivity through the contact between NbC and carbon shells.

关键词: zero-dimensional superconductor;granular metal-films;particles;conduction;nanocapsules;percolation;samples

Oxidation of Zr(2) Al(Si) (4)C(5) and Zr(3) Al(Si) (4)C(6) in air

Journal of Materials Research

The oxidation behavior of Zr(2)[Al(Si)](4)C(5) and Zr(3)[Al(Si)](4)C(6) in air has been investigated. The oxidation kinetics of bulk Zr(2)[Al(Si)](4)C(5) and Zr(3)[Al(Si)](4)C(6) at 900-1300 degrees C generally follow a parabolic law at a very short initial stage and then a linear law for a long period with the activation energy of 237.9 and 226.8 kJ/mol, respectively. The oxide scales have a duplex structure, consisting of mainly an outer porous layer of ZrO(2), Al(2)O(3), and aluminosilicate/mullite, and a thin inner compact layer of these oxides plus remaining carbon. The oxidation resistance of Zr(2)[Al(Si)](4)C(5) and Zr(3)[Al(Si)](4)C(6) has been improved compared with Zr(2)Al(3)C(4), and is much better than Zr(3)[Al(Si)](4)C(6) to larger fraction of protective oxidation products, Al(2)O(3) and aluminosilicate/mullite.

关键词: single-crystals;thermoelectric properties;zrc/zro2 interface;zirconium carbide;high-temperatures;bulk zr2al3c4;carbon;mullite;microstructure;ceramics

TENSILE TESTING OF C/C COMPOSITES ATHIGH TEMPERATURES

Author S.R. Zhou , S.R. Qiao , S.H. Bai and C.S. Tian Faculty 401 , Northwestern Polytechnical University , Xian 710072 , ChinaManuscript received 18 October 1998

金属学报(英文版)

The tensile properties of three different carbonfiberreinforced carbon composites (C/C), mat C/C, 2D laminate and 4D C/C, were investigated under the combined influence of temperature and loading rate. From the experiments the following could be concluded: loading rate between 10-1-10 mm/min was valid; the fracture stress of the three kinds of C/C composites increased with increasing temperature in the range from room temperature to 1900, and the initial modulus of 2D laminate C/C composites increased with the increase of temperature up to 2000.

关键词: tensile testing , null , null , null

C/C-PAA与C/C-FA弯曲性能对比

张万强 , 赵英民 , 王涛 , 詹万初

宇航材料工艺 doi:10.3969/j.issn.1007-2330.2014.05.012

通过PIP工艺制备了C/C-PAA、C/C-FA复合材料,对PAA、FA裂解碳的XRD、浸渍效果以及C/C-PAA和C/C-FA的弯曲强度进行了分析.结果表明:PAA裂解碳的炭质量、浸渍效果较好,C/C-PAA弯曲强度比C/C-FA弯曲强度高34.9％,弯曲模量对比不明显.

关键词: 聚芳基乙炔 , 糠酮树脂 , X射线衍射 , C/C复合材料

Isothermal oxidation of bulk Zr(2)Al(3)C(4) at 500 to 1000 degrees C in air

Journal of Materials Research

The isothermal oxidation behavior of Zr(2)Al(3)C(4) in the temperature range of 500 to 1000 inverted perpendicular C for 20 h in air has been investigated. The oxidation kinetics follow a parabolic law at 600 to 800 degrees C and a linear law at higher temperatures. The activation energy is determined to be 167.4 and 201.2 kJ/mol at parabolic and linear stages, respectively. The oxide scales have a monolayer structure, which is a mixture of ZrO(2) and Al(2)O(3). As indicated by x-ray diffraction and Raman spectra, the scales formed at 500 to 700 degrees C are amorphous, and at higher temperatures are alpha-Al(2)O(3), and t-ZrO(2) nanocrystallites. The nonselective oxidation of Zr(2)Al(3)C(4) can be attributed to the strong coupling between Al(3)C(2) units and ZrC blocks in its structure, and the close oxygen affinity of Zr and Al.

关键词: high-temperature oxidation;zirconium carbide;behavior;kinetics;ti2alc;zr