无铅焊接合金的制备及性能研究

制备了Sn-Zn、Sn-Zn-Bi、Sn-Zn-Bi-RE与Sn-Zn-Bi-Ag系无铅焊接合金，研究了合金的熔点、熔化温度区间、对铜板的润湿性、微观结构和电化学性能。实验结果表明：Bi元素的加入能够降低Sn-Zn合金的熔点，但熔化温度区间增大；Bi、Ag、混合RE能够细化晶粒，使组织更均匀；电化学研究表明，加入适量的混合RE和Ag可提高合金的耐腐蚀性。

红土矿还原焙砂常压酸浸液用SO_2/O_2氧化除铁的研究

在实验室条件下采用SO2和O2混合气体为氧化剂,开展了从预还原焙烧红土矿常压酸浸液中氧化、除铁的研究.模拟浸出液中Fe2+的质量浓度为10.2 g/L,实验温度分别为60、70、80和90℃.氧化后的Fe(Ⅲ)基本以针铁矿的形式沉淀除去,沉淀过程中加入碱式碳酸镁为中和剂以维持溶液pH值恒定.氧化、沉淀除铁的pH值控制范围为1.7至3.2.实验结果表明,SO2和O2混合气体可加速Fe2+的氧化,且SO2的优化配比取决于混合气体的流量.在优化配比情况下,混合气体中SO2的利用率在97%左右.SO2含量超过最优配比时,过量的SO2则会被溶液中的Fe3+氧化.除铁沉淀渣中的镍含量(质量分数)不超过0.05%,镍仅有少量损失于除铁渣中.

攀西钛精矿流态化氧化-磁选提质研究

随着氯化法钛白产业不断发展,利用我国攀西钛精矿生产氯化法用富钛料是重要的发展趋势。针对攀西钛精矿因杂质含量高无法满足电炉还原钛渣升级原料要求的问题,笔者开展了流态化氧化焙烧磁选提质实验研究,分析氧化过程的物相结构转变,考察焙烧参数、磁选条件等对提质效果的影响。结果表明,基于钛铁矿弱氧化可形成磁性的钛铁矿赤铁矿固溶体原理,在650～750℃温度范围内攀西钛精矿流态化氧化焙烧可获得较高磁性,在3 500Gs下直接磁选精矿产率达70%以上;经进一步球磨磁选后,可获得满足生产升级钛渣(UGS)用原料指标的提质矿,钛回收率49.29%,且通过优化磁选可进一步提高提质效果。通过流态化氧化磁选实现攀西钛精矿提质利用具有较好的可行性。

基于LabWindows／CVI的列车逆变电源分析仪的设计

本文基于插值快速傅里叶变换原理,改进了一种基于汉宁(Hanning)窗的三谱线估计插值方法;采用传感器采样的线性拟合算法和频率跟踪技术动态调整采样频率方案,设计出了一款基于LabWindows/CVI的列车逆变电源分析仪,成功用于电力谐波分析,提高了系统的分析精度,仿真实验和测试结果表明这种全局修正的插值快速傅里叶变换算法是成功的。

Kinetics of acid-oxygen leaching of low-sulfur Ni-Cu matte at atmospheric pressure

The leaching of low-sulfur Ni-Cu matte in acid-oxygen(CuSO4-H2SO4-O2)solution at atmospheric pressure was researched.This matte was obtained from high grade Ni-Cu matte by magnetic separation,which mainly contained Ni-Cu alloy and a small quantity of sulfides.The effects of temperature,agitation speed,oxygen flow rate,particle size,acid concentration and concentration of copper ion were studied.It is found that the matte particles are leached by shrinking core mechanism and the leaching process is electrochemically controlled.In a temperature range of 30-60℃,the surface reaction is rate-limiting step,with an apparent activation energy of 41.9 kJ/mol.But at higher temperature(70-85℃),the rate process is controlled by diffusion through the product layer,with an apparent activation energy of 7.3 kJ/mol.

Leaching of nickel laterite ore assisted by microwave technique

The application of microwave technique in the hydrometallurgy of nickel laterite ores was described.The mixture of nickel laterite ores and sulfuric acid was pre-treated by microwave irradiation.The dissolving of nickel was conducted in hot water at the atmospheric pressure.The effects of factors,such as microwave power,microwave irradiation time,and sulfuric acid dosage, were investigated.In microwave field,the migration of ionic species and/or rotation of dipolar species promote the liquid?solid reaction process due to the increased contact area of reactants and leaching reaction rate constant.Thanks to the strengthening action of microwave,the microwave-assisted leaching process has its advantages,such as higher extracting rate than conventional atmospheric leaching,and no need for high-pressure operation as high pressure acid leaching(HPAL).The ferric iron in leaching solution could be effectively removed by sodium jarosite process with a little loss of nickel in the jarosite precipitate.

Selective leaching of nickel from low-sulfur Ni-Cu matte at atmospheric pressure

A process of the selective leaching of nickel from low-sulfur Ni-Cu matte at atmospheric pressure was described.This matte was obtained from high grade Ni-Cu matte by magnetic separation,which mainly contained Ni-Cu alloy and a small quantity of sulfides.Firstly,the acid-oxygen(CuSO4-H2SO4-O2)leaching of the matte was conducted at atmospheric pressure.When the solution pH value reached 1.0-2.0,the oxygen flow was ceased.Then,the aqueous copper was rejected by cementation reaction with Ni in the alloy.The mineralogical characteristics of the matte in the process were analyzed by X-ray diffractometry,optical microscopy and scanning electron microscopy.And the effects of variations in temperature,particle size distribution,oxygen flow rate,pulp density,initial acid concentration and initial concentration of copper ion were investigated.

过程工程所流化床直接还原技术研究进展

“双碳”背景下,钢铁工业亟待低碳重塑,氢气直接还原(常称为“氢冶金”)是国内外竞相研发的重要方向。流态化直接还原是过程工程所六十多年来一直坚持的研究方向。值此叶渚沛先生诞辰120周年之际,本综述回顾并概述了过程工程所在流态化直接还原基础理论和工业应用两方面所取得的一系列重要成果。基础理论方面包括颗粒间黏着力与分离力相互竞争黏结机制、聚团流化和慢速失流的发现、不同铁形貌析出机理和黏结特性,以及降低颗粒间黏结力(颗粒包覆改性、调控铁析出形貌)和增大颗粒间分离力(增强颗粒运动、增大颗粒尺寸、施加外场力)等一系列抑制黏结失流方法;工业应用方面包括100公斤/天流化床氢气直接还原、1吨/天钒钛磁铁矿流化床直接还原和千吨级钒钛磁铁矿直接还原-电炉熔分等中间试验,目前正在与鞍钢集团等单位合作开展全球首套1万吨直接还原铁/年流化床绿氢直接还原工程示范。谨以此文缅怀叶渚沛先生、郭慕孙先生等老一辈科学家,以期推动流化床直接还原基础理论和技术研发的进步,为钢铁工业低碳重塑贡献智慧和力量。

钒电解液V(Ⅲ)离子结构与电化学活性关系探讨

全钒液流电池（VRFB）因其固有安全性和超长服役寿命，被认为是最具应用前景的大规模电化学储能技术之一。VRFB负极电解液在充放电过程中主要发生V（Ⅲ）V（Ⅱ）离子氧化/还原反应，因V（Ⅲ）离子还原的标准电极电位为-0.25 V（vs.NHE），充电过程易于发生析氢副反应而严重影响VRFB性能，负极电解液的活性和析氢行为与V（Ⅲ）离子结构密切相关。基于Gaussian量子化学计算平台，采用MP2理论方法和LANL2DZ基组对不同构型V（Ⅲ）离子进行结构优化，分析其反应活性，并结合电解液电化学性能测试结果，发现新制备电解液中的V（Ⅲ）离子因存在一定程度聚合而表现出较差的电化学活性，经过5次充放电循环后，钒离子聚合程度减小，表现出较好的电化学活性，析氢副反应也得到抑制，充放电活化的电解液室温存放40天后活性又出现明显下降，表明VRFB负极电解液中V（Ⅲ）离子水解聚合是自发性的。

氯化法制备高纯五氧化二钒技术研究进展

随着全钒液流电池等产业的快速发展,作为关键原料的高纯五氧化二钒,其需求日益增加。在高纯五氧化二钒的众多制备工艺中,氯化法因具有高效清洁、选择性高、产品纯度高等显著优势受到越来越多的关注。针对氯化法制备高纯五氧化二钒的三个关键技术环节:钒原料氯化过程的热力学、动力学和氯化工艺、粗三氯氧钒精制以及三氯氧钒转化制备五氧化二钒的研究进展结合相关文献进行系统评述,其中二次钒资源的高效利用,粗三氯氧钒选择性水解四氯化钛以及三氯氧钒催化氧化制备高纯五氧化二钒是各环节未来的发展方向,此外,开展氯化法制备高纯五氧化二钒的中间试验及关键装备技术的开发是未来实现产业化生产的重点及难点。