排序方式: 共有73条查询结果,搜索用时 125 毫秒
2.
3.
Preparation of anodic films on 2024 aluminum alloy in boric acid-containing mixed electrolyte 总被引:1,自引:1,他引:0
The anodizing oxidation process on 2024 aluminum alloy was researched in the mixed electrolyte with the composition of 30 g/L boric acid, 2 g/L sulfosalicylic acid and 8 g/L phosphate. The results reveal that the pre-treatment and the composition of the mixed electrolyte have influence on the properties of the films and the anodizing oxidation process. Under the condition of controlled potential, the anodizing oxidation current-time response curve displays “saddle” shape. First, the current density reaches a peak value of 8-20 A/dm^2 and then decreases rapidly, finally maintains at 1-2 A/dm^2. The film prepared in the mixed electrolyte is of porous-type with 20 nm in pore size and 500 μm^-2 in porosity. Compared with the conventional anodic film obtained in sulfuric acid, the pore wall of the porous layer prepared in this work is not continuous, which seems to be deposited by small spherical grains. This porous structure of the anodic film may result from the characteristics of the mixed electrolyte and the special anodizing oxidation process. The surface analysis displays that the anodic film is amorphous and composed of O, Al, C, P, S, Si and no copper element is detected. 相似文献
4.
5.
ZL系列铸铝合金的微弧氧化 总被引:21,自引:1,他引:21
对含硅量为 8 %~ 12 %的ZL系列铸铝合金的微弧氧化工艺条件、膜层结构以及成膜过程进行了研究。结果表明 :采用不对称交变电压和在以硅酸钠为主要成分的复合电解液体系中 ,铸铝合金表面可获得一层性能优异的微弧氧化膜层。电子能谱 (EDS)和X射线衍射 (XRD)分析结果表明微弧氧化膜主要由Al,Si和O元素组成 ,膜的相结构主要为 η Al2 O3 ,α Al2 O3 和SiO2 ,并含有γ Al2 O3 和Mg ,W ,Cu等元素的氧化物。扫描电镜 (SEM)分析表明微弧氧化膜由致密层 (内层 )和疏松层 (外层 )构成 ,疏松层表面存在许多气孔 ,而致密层完整光滑 ,具有较高的显微硬度和优异的耐磨耐蚀性能 相似文献
6.
7.
A water-in-oil (W/O) microemulsion composed of Triton X-100, n-hexanol, n-hexane and water solution with hydrochloric acid was prepared. K3Fe(CN)6 was added in as a water-soluble electroactive probe, and its electrochemical behavior was investigated by cyclic voltammetry
(CV) and electrochemical impedance spectroscopy (EIS). It is found that the H+ concentration of the water phase has a great effect on the conductivity of the W/O microemulsion, and hence influences the
electrochemical behavior of K3Fe(CN)6. When the pH value of water phase is about 7, the electrical conductivity of the W/O microemulsion is only 1.2×10−6 S/cm, and K3Fe(CN)6 almost cannot react at the glassy carbon electrode. But when the H+ concentration is more than 3 mol/L, the W/O microemulsion has a good electrical conductivity and K3Fe(CN)6 shows good electrochemical performance in it. The results of CV and EIS studies indicate that the electrochemical behavior
of Fe(CN)6
3−/Fe(CN)6
4− in the W/O microemulsion is different from that in the aqueous solution. This may be due to the unique liquid structure of
the W/O microemulsion and the unique mass transfer in the W/O microemulsion.
Foundation item: Projects(20673036, J0830415) supported by the National Natural Science Foundation of China; Projects(05JT1026, 2007JT2013)
supported by the Science Technology Project of Hunan Province, China 相似文献
8.
9.
Cross-linked chitosan(CS),cross-linked chitosan/graphene(CS/RGO10) and cross-linked chitosan/graphene oxide(CS/GO10) were prepared as adsorbents for Cu(Ⅱ).The effects of pH,contact time,adsorbent dosage and initial concentration of Cu(Ⅱ) on the adsorbing abilities of CS,CS/RGO10 and CS/GO10 to Cu(Ⅱ) were investigated.The results demonstrate that the adsorption capacities of CS/GO10 and CS/RGO10 are greater than that of CS,especially at pH 5.0 and the adsorption capacities are 202.5,150 and 137.5 mg/g,respectively.Their behaviors obey the Freundlich isotherm model very well.Additionally,CS/GO10 has the shortest time to achieve adsorption equilibrium among them and can be used as a perspective adsorbent for Cu(Ⅱ). 相似文献
10.