改性钢渣除藻效果研究

对改性钢渣在机械搅拌条件下的除藻效果进行了研究,并分析了改性钢渣预处理与混凝联用工艺对藻类的去除效果和协同作用.实验表明,钢渣经改性后,既能有效地去除水中的藻类,又能降低藻的光合活性,抑制藻的生长;高温活化改性钢渣预处理与混凝联用工艺对藻类有很好的去除效果,其对叶绿素a的平均去除率达91.4％,远高于单纯的钢渣预处理和混凝工艺.这暗示了两者之间在除藻方面存在协同作用.     

基于比表面积计算的泡沫铝彩色处理时的电流控制

对泡沫铝进行彩色处理可能美化外观且改善其防护性能。试验表明，泡沫铝的表面处理工艺与铝材的大致相同，在此工艺中泡沫铝的比表面对电流值的影响是关键因素。利用泡沫铝透气系数正确计算其比表面积，从而得到有效的电流值。把电流值控制在该范围内，可得到氧化膜厚度大致为15μm，且着色色泽均匀。     

螺纹电极的制作方法

介绍了用电火花成形方法加工螺纹时的电极制作方法，尤其是换电极加工螺纹时电极的制作方法。     

废旧聚乙烯的再生处理技术(上)

聚乙烯(Polyethylene)是塑料中产量极大、用途极广的热塑性塑料之一,它是由乙烯聚合而成,可用一般热塑性塑料的成型方法加工。聚乙烯可分为低密度聚乙烯(LDPE)、高密度聚乙烯(HDPE)和线型低密度聚乙烯(LLDPE)三大类。     

用于混凝土结构的参比电极

总结了用于混凝土结构的Ag/AgCl和Pb两种电极,在室内、外及钢筋混凝土码头梁板内的试验情况,结果表明.固定式Ag/AgCl电极电位变化较小.制备安装简单,可作为混凝土中埋置的参比电极,可更换式Ag/AgCl电极电位稳定,寿命长,在工程应用中、适合作为混凝土结构的长效参比电极     

Numerical simulation of deep cryogenic treatment electrode tip temperature for spot welding aluminum alloy

Deep cryogenic treatment technology of electrodes is put forward to improve electrode life of resistance spot welding of aluminum alloy LF2.Deep cryogenic treatment makes electrode life for spot welding aluminum alloy improve.The specific resistivity of the deep cryogenic treatment electrodes is tested and experimental results show that specific resistivity is decreased sharply.The temperature field and the influence of deep cryogenic treatment on the electrode tip temperature during spot welding aluminium alloy is studied by numerical simulation method with the software ANSYS.The axisymmetric finite element model of mechanical,thermal and electrical coupled analysis of spot welding process is developed.The numerical simulation results show that the influence of deep cryogenic treatment on electrode tip temperature is very large.     

Electrochemical impedance characteristics of Ta/Cu contact regions in polishing slurries used for chemical mechanical planarization of Ta and Cu: considerations of galvanic corrosion

The contact areas between Cu and Ta of a Cu interconnect can be susceptible to galvanic corrosion during chemical mechanical planarization (CMP) in polishing slurries capable of supporting ionic conduction. In the present work, we probe this effect at a partially Cu-covered Ta disk, by combining electrochemical impedance spectroscopy with potentiodynamic polarization and galvanic current measurements in two slurry solutions commonly used in CMP of Ta and Cu. The results of these measurements are compared with those for a Cu disk and a (Cu-free) Ta disk. The impedance data for the Cu-decorated Ta sample show negative impedance values at certain regions of the impedance spectra, whereas the individual Cu and Ta electrodes are free of this effect. The results are examined and explained from considerations of galvanic corrosion at the Ta/Cu bordering regions in contact with the slurry liquid.     

Suspended electrode kinetics of mechanically activated pyrite

1　ＩＮＴＲＯＤＵＣＴＩＯＮＭｅｃｈａｎｉｃａｌａｃｔｉｖａｔｉｏｎｉｓｗｉｄｅｌｙａｐｐｌｉｅｄｉｎｅｎ ｈａｎｃｉｎｇｍｅｔａｌｌｕｒｇｉｃａｌｐｒｏｃｅｓｓ[1～ 3] ａｎｄｃｈｅｍｉｃａｌｓｙｎ ｔｈｅｓｉｓ[4 ,5] .Ｓｏｆａｒｉｔｉｓｄｉｆｆｉｃｕｌｔｔ     

快速凝固MlNi4．0 Al 0．3 Si 0．1 Fe0．6无Co贮氢电极合金的微结构和电化学性能

研究了单辊快淬快速凝固处理对无Co贮氢电极合金MlNi4．0Al0．3Si0．1Fe0．6的微结构和电化学性能的影响。XRD分析表明，快凝合金仍为单相CaCu5型结构，但合金相的成分和结构均匀性得到明显改善。金相观察和能谱分析显示，铸态合金为比较粗大的树枝晶结构并存在明显的成分偏析，而快凝合金呈细小的胞状晶结构，合金中元素的分布趋于均匀化。电化学测试表明，快速凝固处理后合金的活化性能不变，循环稳定性得到显著改善，但其放电容量和高倍率放电性能有所降低。研究发现，快凝合金电极的交换电流密度Io以及氢在合金中的扩散系数D较铸态合金有所减小是导致其高倍率放电性能降低的主要原因。快速凝固处理导致无Co合金电化学性能的变化与合金的微结构的改变有关。