过渡层厚度对Be/CuCrZr热等静压连接性能影响

在铍上用物理气相沉积(PVD)镀上10μmTi 和10μmCu，再添加不同厚度的(分别为0.00mm、0.25mm、 0.50mm、0.75mm、1.00mm)无氧铜作为中间过渡层，与CuCrZr/316L(N)复合板基座铜合金侧通过热等静压连接。采用光学显微镜、扫描电镜(SEM)与电子探针(EPMA)、X 射线衍射仪(XRD)、剪切试验等方法确定了界面组织与性能。试验结果表明：各厚度无氧铜模块连接成功，界面无裂纹、空洞等缺陷，钛铜间出现三层明显的反应层，分别为CuTi₂、CuTi 以及Cu₄Ti。添加无氧铜厚度越大，剪切强度越大。     

单颗金刚石切削无氧铜的声发射关联维特征*

声发射技术可以实现无氧铜切削加工特征的监测与评价。采用声发射技术监测单颗金刚石磨粒旋转切削无氧铜，利用G-P算法重构出声发射时域信号相空间，采用自相关函数法计算出相空间时间延迟参数，通过相空间双对数曲线的计算，得到不同切削工况下的关联维数。研究结果表明，进给速度和切削速度对声发射信号影响较不显著，切深与声发射信号振幅呈正效应关系；声发射信号双对数曲线呈现阶段性增加趋势，并逐渐收敛于饱和状态，关联维数随着嵌入维数的增加先快速下降后趋于平稳；金刚石切削无氧铜的声发射信号具有混沌运动变化特性，在较小嵌入维数时，关联维数与切深和切削速度呈现线性负效应关系，与进给速度呈现线性正效应关系。该研究为无氧铜的切削加工提供理论参考。     

用三电极体系研究铜在微液滴下的电化学腐蚀

Owing to its high impedance, studying atmospheric corrosion using a traditional reference electrode (RE) is difficult. To obtain more accurate information on the electrochemical processes involved in atmospheric corrosion, it is necessary to improve the traditional RE. In this paper, the corrosion behavior of copper under an electrolyte droplet containing (NH₄)₂SO₄ was investigated by electrochemical impedance spectroscopy (EIS) and polarization measurements using a three-electrode system with a modified RE. The average corrosion rate increased with decreasing electrolyte volumes (from 1 to 20 μL) and with decreasing heights of the droplet at heights below 850 μm. The EIS and polarization results were in agreement, thereby demonstrating that the modified RE could be effectively used to study atmospheric corrosion under an electrolyte droplet.     

铜纳米线的液相制备及其表面修饰研究进展

在现代纳米科学技术领域中,铜纳米线由于具有独特的光学、电学、力学和热学性质而成为制备透明柔性导电电极的优良材料。铜价格低廉,自然存储量较大,是实际应用中替代贵金属的理想材料。然而,将铜离子还原为单质铜比较困难,且单质铜非常容易被氧化,这成为应用中亟需解决的关键问题。如何制备单分散、稳定且具有抗氧化性的铜纳米线也成为该领域的研究热点。在各种制备铜纳米线的方法中,液相还原法不仅可以解决以上问题,且该方法具有制备条件限制少、成本低、简单易行等优点而被广泛应用于铜纳米线的大量合成。本文从铜纳米线的研究背景和研究价值入手,首先综述了不同(光滑或粗糙、单晶或孪晶)铜纳米线的液相制备方法及其生长机制。讨论了铜纳米线的氧化及其抗氧化表面包覆问题。最后对铜纳米线的研究意义和应用前景做出展望。     

稀土掺杂对氯化氢氧化制氯气CuO-CeO2-SiO2催化剂结构和性能的影响

CuO-CeO₂-SiO₂ and rare-earth-doped CuO-Ce_0.9M_0.1O₂-SiO₂ (M=La, Pr, Nd) catalysts for recycling Cl₂ from HCl oxidation were prepared by a template method, using activated carbon as a hard template. The catalyst structures were determined using X-ray diffraction (XRD), N₂ adsorption-desorption, transmission electron microscopy (TEM), Raman spectroscopy, X-ray photoelectron spectroscopy (XPS), and H₂ temperatureprogrammed reduction (H₂-TPR). The catalytic performances were also investigated. The results showed that La, Pr, and Nd cations were incorporated into the CeO₂ lattice and formed nanosized solid solutions; this greatly reduced the catalyst grain sizes, leading to higher surface areas. In addition, the oxygen vacancy concentrations were significantly improved. The changes in the structures and surface properties of the solid solutions significantly affected the HCl catalytic oxidation performances. The order of the activities of various catalysts was CuO-Ce_0.9La_0.1O₂-SiO₂>CuO-Ce_0.9Nd_0.1O₂-SiO₂>CuO-Ce_0.9Pr_0.1O₂-SiO₂>CuO-CeO₂-SiO₂. The oxygen vacancy concentrations of the solid solutions were strongly related to their catalytic activities. However, the structures and performances of the Ce_0.9M_0.1O₂-SiO₂ catalysts showed that an increase in the number of oxygen vacancies resulted in decreased catalytic activities of the solid solutions. Kinetic studies showed that oxygen adsorption could be the rate-determining step for rare-earth-doped catalysts; a higher oxygen vacancy concentration in the solid solution led to a slower reaction rate when the volumetric flow ratio of O₂ to HCl was 1. For the CuOCe_0.9M_0.1O₂-SiO₂ catalysts, spillover of oxygen species in the solid solution into the highly dispersed CuO interfaces was enhanced, which increased the overall reaction rate and gave high activity.     

电气材料铜及铜合金中痕量杂质砷元素的氢化物发生-原子荧光光谱法测定

本文建立了氢化物发生-原子荧光光谱法测定电气材料铜及铜合金中痕量杂质元素砷的方法。通过使用L-半胱氨酸与铜基体形成络合物,抗坏血酸充分预还原砷,消除了基体干扰,并实现了铜及铜合金中痕量杂质砷的准确测定。在经过优化的实验条件下,砷的检出限为0.12 ng·m L-1,线性相关系数优于0.999,相对标准偏差小于4%。用加标回收法测定实际样品,回收率在92%到103%之间。该法操作简便,灵敏度高,无需基体预分离。     

FCC辐照金属铜材料中氦泡平衡内压的分子模拟及其尺度效应

氦泡内的氦密度及其内压对含氦泡辐照材料的力学性能具有重要影响，本文采用分子模拟方法系统地研究了面心立方金属铜材料内氦泡平衡内压及其尺度效应、温度效应和引起的应力场。基于能量最小原理与应力平衡准则，提出了确定平衡内压的方法，研究发现：1）采用能量最低原理与应力平衡准则所获得的平衡内压是自洽的；2）存在一个临界尺度，当氦泡孔径小于该临界尺度时，平衡内压出现反常尺度效应，即当氦泡孔径小于3nm时，平衡内压并不随孔径减小而明显增大，甚至出现减小的异常现象；3）传统采用基于球形孔洞的理论公式估算严重高估了氦泡平衡内压，引起的误差随氦泡孔径减小而显著增大，如孔径为3nm时，误差超过63%；4）由于纳米孔洞多面体特性和材料的各向异性，即使在平衡内压条件下，基体铜材料内仍存在一定的应力分布，该应力体现出显著的局域特征，即随着距孔洞中心距离的增加而快速下降。此外，本文还提出采用时间平均叠加区域平均来减小热涨落对应力场的影响，取得了较好的效果。     

基于拉曼热测量技术的铜基复合物法兰GaN基晶体管的热阻分析

采用拉曼热测量技术结合有限元热仿真模型,分析比较新型铜/石墨复合物法兰封装与传统铜钼法兰封装的GaN器件的结温与热阻,发现前者的整体热阻比铜钼法兰器件的整体热阻低18.7%,器件内部各层材料的温度分布显示铜/石墨复合物法兰在器件中的热阻占比相比铜钼法兰在器件中的热阻占比低13%,这证明使用高热导率铜/石墨复合物法兰封装提高GaN器件热扩散性能的有效性.通过对两种GaN器件热阻占比的测量与分析,发现除了封装法兰以外,热阻占比最高的是GaN外延与衬底材料之间的界面热阻,降低界面热阻是进一步提高器件热性能的关键.同时,详细阐述了使用拉曼光热技术测量GaN器件结温和热阻的原理和过程,展示了拉曼光热技术作为一种GaN器件热特性表征方法的有效性.