Anodic oxidation of mecoprop herbicide at lead dioxide

The electrochemical oxidation of an aqueous solution containing mecoprop (2-(2-methyl-4-chlorophenoxy)propionic acid) has been studied at PbO₂ anodes by cyclic voltammetry and bulk electrolysis. The influence of current density, hydrodynamic conditions, temperature and pH on the degradation rate and current efficiency is reported. The results obtained show that the use of PbO₂ leads to total mineralization of mecoprop due to the production of oxidant hydroxyl radical electrogenerated from water discharge. The current efficiency for the electro-oxidation of mecoprop is enhanced by low current density, high recycle flow-rates and high temperature. In contrast, the pH effect was not significant. It has also been observed that mecoprop decay kinetics follows a pseudo-first-order reaction and the rate constant increases with rising current density.     

Mechanistic investigation into the electrolytic formation of iron from iron(III) oxide in molten sodium hydroxide

Iron(III) oxide tablets were electrolytically reduced to iron in molten sodium hydroxide at 530 °C and recovered to produce iron with 2 wt.% oxygen suitable for re-melting. The cell was operated at 1.7 V and an inert nickel anode was used. The thermodynamics and mechanism of the process was also investigated. By controlling the activity of sodium oxide in the melt, the cell could be operated below the decomposition voltage of the electrolyte with the net sequence of events being the ionization of oxygen, its subsequent transport to the anode and discharge leaving behind iron at the cathode. A reduction time of 1 h was achieved for a 1 g oxide tablet (close to the theoretical reduction time predicted by Faraday’s laws) at a current density of 520 mA cm⁻² with iron phase yields of ∼90 wt.%. The energy consumption was 2.8 kWh kg⁻¹.     

从混联法生产中提取镓的研究

针对联合法厂家资源的分布特点,提出采用化学法和树脂吸附法相结合的方式实现同时回收烧结法和拜尔法循环母液中镓的新工艺,并通过小试和扩试结果分析,阐述了该工艺的可行性。     

一种二维梯度电极模型的表面热应力缓和设计

针对一种侧面和一端的成分呈梯度变化的圆柱体电极模型进行了热应力缓和优化设计。模型材料成分是金属Cu和NiFe2O4尖晶石陶瓷。采用混合律定律确定材料组分．性质关系，利用ansys有限元分析软件计算了从300K(零应力状态)升温到1300K时模型表面的热应力，分析了层数n、成分指数p以及锥角θ对模型表面热应力分布的影响。结果表明：层数n主要影响应力曲线的光滑程度，层数增加，曲线变得平滑；成分指数p是热应力缓和设计的关键，指数越小，应力越小；锥角θ的增加也可缓和热应力，但作用不如成分指数。     

管道内壁阴极保护技术

阴极保护技术已广泛应用于管道的外防腐,而在管道的内防腐中还存在只适用于大口径管道、保护距离短、阳极与管道内壁绝缘难、安装复杂等问题。为此,江汉油田设计院开展了管道内壁阴极保护技术研究工作。试验证明,管道内壁采用强制电流和牺牲阳极阴极保护完全可行,用在柔性阳极或带状锌合金、铝合金牺牲阳极上外套打孔塑料管或塑料网的安装方式成功地解决了管道内壁阴极保护存在的上述问题,具有适用范围广、施工工艺简单、经济方便等优点。文章着重介绍了塑料套管或塑料网阳极安装方式及其模拟试验、现场试验的条件和结果。     

发展是企业的根本出路

通过对中国铝工业发展历程的回顾以及与国外铝企业的比较，找出了中国铝工业存在的优势和差距。就中国铝工业应如何解决前进中存在的问题和今后几年的发展目标进行了探讨。     

电磁搅拌制备ZL12Y铝合金流变半固态浆料的实验及模拟研究

对不同温度及不同搅拌工艺下得到的材料的显微组织的比较，确定了合理的半固态温度和搅拌工艺，即半固态温度为590℃，震荡电流为500A。随后对单个线圈电磁搅拌过程进行建模及电磁场和流速场的耦合模拟得到了电磁场和流速场分布，此结果与电磁搅拌的原理及实验结果相一致。计算出在该温度和工艺下熔体内部的平均流动速度为3．2cm／s，将该结果作为能否得到半固态浆料的判据。     

电渣20Mn1A钢中铝和钛的控制

总结了电渣 2 0Mn1A钢从电炉冶炼到电渣重熔钢中铝、钛及主要成分的变化情况 ,为该钢的生产提供了控制成分的依据     

油润滑下Al/MoSi2材料的摩擦学特性

运用M-200型磨损试验机测定了油润滑下Al/MoSi2材料的摩擦磨损性能，采用SEM和X射线观察与分析了摩擦副表面的形貌和相组成，探讨了磨损机制。结果表明：采用20#机油润滑可有效地提高Al/MoSi2材料的摩察磨损综合性能；与干摩擦状态相比，其摩擦系统和磨损率分别下降了40%和60%；油润滑时，Al/MoSi2材料的磨损机制主要表现为疲劳点蚀和磨粒磨损。     

Effect of Hydrogen Heat Treatment on the Chemical Composition of Aluminum Nitride Powder

The effect of hydrogen heat treatment on impurity contents in aluminum nitride powder of different fineness is studied. Thermodynamic calculations are provided pointing to the possibility of forming gaseous hydrogen compounds with impurity elements. It is established that as a result of treatment the contents of impurity elements, i.e. oxygen, carbon, sulfur, are reduced by a factor of 3-13. The optimum hydrogen heat treatment regime is determined: a temperature of 1323 K and an exposure time of 30 min.