材料期刊网

Fabrication of Carbon Nanotube-Reinforced 6061Al Alloy Matrix Composites by an In Situ Synthesis Method Combined with Hot Extrusion Technique

Chun-Nian He , Chao Feng , Ji-Chuan Lin , En-Zuo Liu , Chun-Sheng Shi , Jia-Jun Li , Nai-Qin Zhao

金属学报(英文版) doi:10.1007/s40195-016-0376-3

Carbon nanotube (CNT)-reinforced 6061Al alloy matrix composites were prepared by chemical vapor deposition (CVD) combined with hot extrusion technique. During the preparation process, the 6061Al flakes obtained by ball milling of the 6061Al spherical powders were subjected to surface modification to introduce a hydrophilic polyvinyl alcohol (PVA) membrane on their surface (6061Al@PVA) to bond strongly with nickel acetate [Ni(II)]. Then the 6061Al@PVA flakes bonded with Ni(II) were calcined and reduced to Ni nanoparticles, which were then heat-treated at 580 °C to remove PVA for obtaining even Ni/6061Al catalyst. After that, the as-obtained Ni/6061Al catalyst was employed to synthesize CNTs on the surface of the 6061Al flakes by CVD. After hot extrusion of the CNT/6061Al composite powders, the as-obtained CNT/6061Al bulk composites with 2.26 wt% CNTs exhibited 135% increase in yield strength and 84.5% increase in tensile strength compared to pristine 6061Al matrix.

关键词: Metal , matrix , composites , (MMCs) , Microstructure , Mechanical , properties , Carbon

Crystallization Behavior of C-containing FINEMET Amorphous Alloy Melt-spun Ribbon

Chengdong LI , Xuelei TIAN , Xichen CHEN , A.G.Ilinsky , Likai SHI

材料科学技术（英文）

The crystallization kinetics of amorphous Fe¬¬68.5Si¬13.5B¬9Cu¬1Nb¬3C¬5 (at. pct) melt-spun ribbons were studied by the DSC method in the mode of continuous heating. The apparent activation energy Ep1 and Ep2 (373.07±7.92 and 518.75±21.35 kJ/mol, respectively) derived from the Kissinger plots were calculated by the peak temperatures Tp1, Tp2, which display a strong dependence on the heating rates. The crystallization behavior during isothermal annealing at 823 K for 1, 5, 10 h and 973 K for 5 h were investigated using XRD and TEM. The results show that crystallization behavior becomes completely different from that of FINEMET. It is not bcc α-Fe (Si) but metastable fcc γ-Fe (Si) that participates in the first crystallization step combining the appearance of Fe23B6 and Nb2B. Therefore, the addition of C promotes the combination of Fe and B. Fe3.5B is participated in the second step together with the disappearing of Fe23B6, which indicates that transition Fe23B6→Fe3.5B+Fe2B presumably happens. γ-Fe (Si) with peculiar stability cannot transform into nano-sized α-Fe (Si) crystals until the amorphous ribbons were annealed for 5 h at 973 K.

关键词: Amorphous , null , null , null

Study on the Electromagnetic Interference of CFRC Composites by Reflectivity

Kezhi LI , Chuang WANG , Hejun LI , Gengsheng JIAO , Jian WEI

材料科学技术（英文）

The influence of dispersion of carbon fibers in carbon-fiber-reinforced cement-based composites (CFRC) on the mechanical properties of the composites was discussed. The microstructure of the fracture surface of the CFRC samples was observed with a scanning electron microscope (SEM). The electromagnetic interference (EMI) was evaluated indirectly by reflectivity in the Naval Research Laboratory (NRL) testing system. The reflectivity of the electromagnetic radiation by the composites was measured in the frequency range of 8.0–8.2 GHz for different carbon fiber contents of 0.2%, 0.4%, 0.6%, 0.8%, and 1.0% (in wt pct), respectively. The results showed that the reflectivity decreased with the growing fiber content till the percentage of 0.6%. The minimum reflectivity was -23 dB, far less than ¡10 dB, and the composites were strong wave absorbers. After this percentage, the curve increased abruptly as the fiber content proceeded. The electromagnetic waves were gradually reflected. When the fiber content reached 1.0% finally, the maximum reflectivity -7.5 dB appeared and there was stronger reflection. The shielding mechanism includes mainly reflection, absorption, and multiple reflections.

关键词: Carbon fibers , fibers , Cement-based , EMI , Reflectiv

Recent Progress of Counter Electrodes in Nanocrystalline Dye-sensitized Solar Cells

Kexin LI , Zhexun YU , Yanhong LUO , Dongmei LI , Qingbo MENG

材料科学技术（英文）

Dye-sensitized solar cell (DSC) consists a combination of several different materials: photoanodes with nanoparticulated semiconductors, sensitizers, electrolytes and counter electrodes (CEs). Each materials performs specific task for the conversion of solar energy into electricity. The main function of CE is to transfer electrons to the redox electrolyte and regenerate iodide ion. The work of CE is mainly focused on the studies of the kinetic performance and stability of the traditional CEs to improve the overall efficiency of DSC, seeking novel design concepts or new materials. In this review, the development and research progress of different CE materials and their electrochemical performance, and the problems are discussed.

关键词: Counter electrode , null , null , null

纳米结构的炭钌复合物-一种提高超级电容器性能的电极材料

崔光磊 , 周新红 , 智林杰 ,

新型炭材料 doi:10.3969/j.issn.1007-8827.2007.04.003

报道了一种利用氧化硅模板,裂解简单易得的含钌有机物制备纳米结构炭/钌复合物的方法.在该复合物中,钌纳米颗粒均匀地分布在多孔的炭基体中.该复合物被电氧化所得炭/RuO2·xH2O的超级电容性质明显提高(10 mV/s 时229 F/g ).

关键词: 电极 , 纳米材料 , 超级电容器 , 炭 , 钌

XRD Synchrotron Study of Carbide Precipitation in Martensitic Steels During Tempering

金属学报(英文版) doi:10.1007/s40195-013-0078-z

关键词:

Carbon and Nickel Oxide/Carbon Composites as Electrodes for Supercapacitors

材料科学技术（英文）

关键词: 碳复合材料 , 超级电容器 , 碳电极 , 氧化镍 , X-射线衍射技术 , 碳纤维复合材料 , 扫描电子显微镜 , 等离子体射流

碳催化剂用于异丁烷直接脱氢制异丁烯

李杨 , 张中申 , 王俊慧 , 麻春艳 , 杨洪玲 , 郝郑平

催化学报 doi:10.1016/S1872-2067(15)60914-7

异丁烯用途广泛,被认为是除乙烯和丙烯外最重要的基础化工原料.异丁烯的来源主要是石油裂化过程中产生的碳四馏分,但随着对其需求量的逐年增加,分离法已逐渐无法满足,因此异丁烷直接脱氢工艺逐渐受到工业界和学术界的重视.铬系和铂系催化剂是两类传统工业催化体系,但铬对环境污染严重,铂作为贵金属成本较高,而且现有工艺大多存在催化剂稳定性较差需要反复再生的问题.近年来碳材料用于烷烃氧化脱氢反应的研究较多,并表现出较高的活性和稳定性,甚至有研究组提出金属催化剂在反应中快速生成的活性积碳(active coke)可能是真正的催化活性中心.但氧化脱氢反应不同于直接脱氢,需在反应中加入氧气,这在实际生产中会带来一系列问题：考虑到烷烃的爆炸极限,实际应用时反应气必须稀释,这不利于产物的收集；而且氧气会导致反应物过度氧化产生CO和CO2等副产物,也限制了氧化脱氢工艺在工业上的应用和发展.
　　我们研究组将椰壳碳、煤质碳和碳纳米管等碳材料作为催化剂用于催化异丁烷直接脱氢反应,发现碳催化剂表现出较高的催化活性：在625 oC,椰壳碳上异丁烷转化率和异丁烯选择性分别为70%和78%,连续反应3d后仍能维持34%的转化率,且选择性基本不变.与铬基催化剂相比,碳催化剂在稳定性方面表现出更大优势.我们进一步采用N2吸脱附、X射线光电子能谱(XPS)、傅里叶变换红外光谱(FTIR)和场发射扫描电子显微镜(FE-SEM)等手段对反应前后的碳催化剂进行了详细表征. N2吸脱附结果表明,椰壳碳比表面积高达1190.2 m2/g,这可能是其具有较高催化活性的原因；而结合催化剂活性数据,对比反应前后椰壳碳催化剂比表面积和异丁烷转化率可知,两者呈现近乎线性的相关性,进一步证实比表面积大小对碳催化剂催化活性有重要影响. XPS谱图证明椰壳碳在反应前表面除了有少量硅(0.73%)外,不存在金属氧化物等杂质,证实碳材料无需负载氧化物等即可表现出较高的催化活性；反应后沉积的积碳附着在催化剂表面,使硅含量降低至0.47%；催化剂中氧含量也由4.43%降低至3.78%,同时有碳酸盐生成. FTIR谱图进一步证实反应前的椰壳碳表面有丰富的有机官能团,但反应开始后有机官能团很快消失,而催化剂仍保持较高的催化活性,因此有机官能团并非碳催化剂催化活性高的必要因素,这与文献中已报道的结果不同. FE-SEM照片中观察到反应后椰壳碳催化剂表面形成积碳,随着反应时间延长积碳明显增多,这与XPS结果一致.
　　碳材料具有来源广泛、绿色环保等显著优势,可作为一种新的催化体系应用于异丁烷直接脱氢反应,无需负载其他物质或添加氧化性气体即可表现出良好的催化活性和稳定性,其比表面积对催化活性有重要影响,反应中产生的积碳导致催化剂比表面积下降进而降低其催化活性,而有机官能团的存在对催化活性影响不大.

关键词: 碳 , 直接脱氢 , 异丁烷 , 异丁烯 , 多相催化

甲醇浓度对Pt/C催化剂氧还原活性的影响

唐水花 , 林文锋 ,

催化学报 doi:10.1016/S1872-2067(11)60480-4

采用半池考察了Pt/C催化剂在含不同浓度甲醇的0.5 mol/L硫酸中的氧还原活性(ORR).研究发现,当甲醇浓度为0.1 mol/L时,Pt/C催化剂的ORR活性最高,在催化层上热压商品Nafion NRE-212膜后也出现同样趋势.线性扫描伏安曲线显示,压膜前后的Pt/C催化剂的ORR活性在含0.1 mol/L甲醇的0.5 mol/L硫酸中几乎没有变化.电化学阻抗谱结果表明,在该溶液中,Nafion膜的电阻比在其它电解液中低,这可能是导致Pt/C催化剂ORR活性提高的主要原因.有必要关注Nafion膜的这一异常性质并通过特殊设计后用于电池堆,以提高燃料电池性能.

关键词: 铂 , 炭 , 甲醇渗透 , 氧还原 , 燃料电池

锂在人造石墨、中间相炭微球及无定形碳中的扩散系数

郭华军 , 李新海 , 张新明 , 王红强 , 王志兴 , 彭文杰

新型炭材料 doi:10.3969/j.issn.1007-8827.2007.01.002

采用X-射线衍射及恒电位阶跃计时电流法测定了不同炭材料的结构及锂在这些炭材料中的扩散系数.发现炭电极的放电程度与结构对锂在炭电极中的扩散系数有重要影响.随着放电程度的增加,锂在MCMB电极中的扩散系数由4.43×10-9 cm2/s减少到5.24×10-10 cm2/s,在50%的放电程度下,锂在蔗糖热解炭、树脂热解炭、人造石墨及MCMB中的扩散系数分别为1.4×10-10 cm2/s,5.75×10-10 cm2/s,1.24×10-9 cm2/s,2.1×10-9 cm2/s.与无定形碳如蔗糖热解炭及树脂热解炭比较,锂在石墨化炭如人造石墨、MCMB中的扩散要容易得多.

关键词: 锂离子电池 , 扩散系数 , 阳极 , 炭 , 石墨