Effect of Manganese on As-Cast Microstructure and Hardening Behavior of High Chromium White Cast Iron

The effect of manganese on the as-cast structure and hardening behavior of high chromium white cast iron subjected to sub-critical treatment was studied.The results indicate that the fraction of retained austenite and the manganese distribution in as-cast alloys are controlled by manganese content.The manganese distribution in as-cast alloys is not homogeneous.The manganese content in carbide is higher than that in matrix.Whether the secondary hardening occurs or not and the peak hardness of secondary hardening is controlled by manganese content in retained austenite in as-cast structure.Higher manganese content can cause more retained austenite.The secondary hardening occurs in sub-critical treating process if the fraction of retained austenite is high.

The Application of Biological Removal Technology Used on the Treatment of Groundwater with Low-Iron and High-Manganese

The characteristic of groundwater belongs to low iron but high manganese in Shenyang Hunnan New Developed Area.The first stage engineering of The WTP of Shenyang Hunnan industry Area were designed according the technology of aerated-contact oxidation,and the water quality couldn’t reach to the standard after the WTP putted into production,1996.

Kinetic study on pressure leaching of high iron sphalerite concentrate

The kinetics of pressure leaching high iron sphalerite concentrate was studied.The effects of agitation rate,temperature, oxygen partial pressure,initial acid concentration,particle size,iron content in the concentrate and concentration of Fe2 +added into the solution on the leaching rate of zinc were examined.The experiment results indicate that if the agitation rate is greater than 600 r/min,its influence on Zn leaching rate is not substantial.A suitable rise in temperature can facilitate the leaching reaction,and the temperature should be controlled at 140-150℃.The increase trend of Zn leaching rate becomes slow when pressure is greater than 1.2 MPa,so the pressure is controlled at 1.2-1.4 MPa.Under the conditions of this study,Zn leaching rate decreases with a rise in the initial sulfuric acid concentration;and Zn leaching rate increases with a rise of iron content in the concentrate and Fe 2+ concentration in the solution.Moreover,the experiment demonstrates that the leaching process follows the surface chemical reaction control kinetic law of“shrinking of unreacted core”.The activation energy for pressure leaching high iron sphalerite concentrate is calculated,and a mathematical model for this pressure leaching is obtained.The model is promising to guide the practical operation of pressure leaching high iron sphalerite concentrate.

Numerical Simulation of Dendrite Evolution during Solidification Process

The effect of manganese on the as-cast structure and hardening behavior of high chromium white cast iron subjected to sub-critical treatment was studied. The results indicate that the fraction of retained austenite and the manganese distribution in as-cast alloys are controlled by manganese content. The manganese distribution in as-cast alloys is not homogeneous. The manganese content in carbide is higher than that in matrix. Whether the secondary hardening occurs or not and the peak hardness of secondary hardening is controlled by manganese content in retained austenite in as-cast structure. Higher manganese content can cause more retained austenite. The secondary hardening occurs in sub-critical treating process if the fraction of retained austenite is high.

转炉高锰铁水炼钢工艺研究

为了解转炉高锰铁水炼钢情况,对涟钢210 t转炉42炉吹炼终点钢水进行了取样、测温,根据所得到数据计算了锰氧化反应热力学参数(K′Mn,γ(MnO),L Mn)及炉渣碱度、氧化铁、钢水温度对锰氧化热力学参数的影响。对于吹炼终点钢水与炉渣反应的平衡值及反应偏离平衡状况进行了计算。利用回归分析方法,给出了终点钢中含锰量与转炉吹炼工艺参数关系。吹炼终点渣中平均w(TFe)=20.0%,终点钢中平均w(Mn)=0.147%。终渣平均w(MnO)=6.28%,较正常含锰铁水炼钢终渣高,增加了炉渣流动性,有利于化渣。锰的收得率较低(平均23%),与转炉炼钢铁水硅含量高、渣量大有关。

难选高铁软锰矿流态化磁化焙烧-磁选浸出工艺

【目的】提高难选高铁软锰矿的资源利用效率,缓解我国锰矿资源依赖进口的现状。【方法】采用流化床反应器作为焙烧装置,模拟发生炉煤气气体组分作为还原气体,对云南省某地区的难选高铁软锰矿进行流态化磁化焙烧。对还原后的焙烧矿进行磨矿-弱磁磁选,得到铁精矿和锰精矿。最后,对锰精矿中的锰进行酸浸浸出。【结果】在500℃流态化还原焙烧10 min,该难选高铁软锰矿即可达到最佳的还原状态效果,当样品的磨矿粒径<30μm的颗粒的质量分数为65%时,即可达到最佳的解离效果。选别后铁精矿铁品位和回收率分别为57.24%和76.55%,锰精矿锰品位和回收率分别为24.41%和73.84%,锰精矿的铁浸出率仅有1.94%。【结论】考察难选高铁软锰矿流态化磁化焙烧-磁选浸出规律,可以降低反应温度,缩短反应时间,低碳节能;抑制过还原反应的发生,可以提高铁资源利用率,降低浸出酸耗和除铁剂消耗。低能耗、低消耗和高利用率可以极大地提高难选高铁软锰矿的经济性,解决这部分资源难于利用的困境。

程潮铁精矿带式磁选提质试验研究

针对氢基还原竖炉所需高品位铁精矿原料短缺问题,对程潮铁精矿进行磁滚筒精选、弱磁选—磁选柱精选以及带式磁选机精选提质研究。结果表明,在磨矿细度为-0.037 mm占85%时,采用两段带式磁选流程,可以得到TFe品位为70.16%、产率为87.33%、TFe回收率为92.51%的精矿产品;优化带式磁选参数并额外新增一排清洗水出水口进行磁选,得到精矿TFe品位为70.78%、产率为45.71%,尾矿TFe品位为62.40%、产率为54.29%。带式磁选精选2个流程均能获得TFe品位符合要求的精矿产品,且额外新增一排清洗水出水口的流程得到的尾矿产品可以直接利用。本研究可为国内优质磁铁精矿提质制备高品位铁精矿提供参考。

铁尾矿—硅锰渣—赤泥协同制备超高性能混凝土力学性能研究

选用铁尾矿粉、硅锰渣粉和赤泥作为矿物掺合料代替部分普通硅酸盐水泥,协同制备了2种不同水胶比的超高性能混凝土,研究了掺入铁尾矿—硅锰渣—赤泥的超高性能混凝土(Ultra-high Performance Concrete,UHPC)的力学性能,探究了铁尾矿粉掺量对UHPC的抗弯强度、劈裂抗拉强度和抗压强度的影响。结果表明:①水胶比较低的超高性能混凝土中,铁尾矿粉对混凝土抗弯强度影响较大,对劈裂抗拉强度影响较小;②水胶比较高的超高性能混凝土中,铁尾矿粉对混凝土抗弯强度的影响与对劈裂抗拉强度的影响基本一致;③随着铁尾矿粉掺量增加,水胶比为0.20和0.25的超高性能混凝土抗压强度降低,硅锰渣—赤泥组超高性能混凝土28 d抗压强度最大降低幅度分别为19.2%和22.9%。上述分析进一步反映出:①铁尾矿粉在超高性能混凝土中的掺量不宜超过矿物掺合料总量的40%;②铁尾矿粉的掺加不利于超高性能混凝土的早期抗压强度提升,但适量掺加铁尾矿粉(20%)有利于超高性能混凝土后期抗压强度增长;③三参数模型系数相对于铁尾矿—硅锰渣—赤泥超高性能混凝土的抗压强度和养护龄期关系相对集中,拟合相关系数较高。

有机酸-硫化零价铁处理高浓度含铬废液及铬铁资源化的研究

针对含铬废液净化污泥杂质含量高、铬含量低导致铬回收难的问题,以有机酸-硫化零价铁为铬废液净化剂,在高效去除废液中铬的同时,可净化污泥并直接制备铬铁合金。通过考察零价铁硫化程度、初始废液pH值、不同有机酸摩尔比、硫化零价铁用量等影响因素对废液铬净化与污泥铬富集的影响,探索铬污泥直接制备铬铁合金工艺。研究显示,采用有机酸-硫化零价铁协同处理后,废液总铬质量浓度可由5 324.1 mg/L降低至4.30 mg/L,与未改性零价铁技术相比,铬净化去除率由65.45%提高至99.92%。净化污泥铬铁元素平均质量分数大于46%,在1 500℃,氩气保护气氛下,添加质量分数为30%碳粉即可成功制备铬铁合金。铬铁合金产物中铬铁元素分布均匀,杂质含量较少。XRD分析显示,硫化零价铁的掺入质量增大可降低合金产品中杂相的生成。研究方法为冶金、化工等行业含铬废液的高效净化及资源化处理提供了一条新路径。

袁家村微细粒难选磁赤混合铁矿石提铁降硅试验研究

袁家村铁矿选矿厂原生产工艺流程获得的铁精矿TFe品位仅65%左右、SiO_(2)含量达4%~5%,难以满足市场对高品质铁精矿的需求。为此,在详细分析生产流程中混合磁选精矿性质的基础上,采用卧式搅拌磨机细磨—弱磁选+强磁选—反浮选工艺流程开展了提铁降硅试验研究。对TFe品位42.44%、SiO_(2)含量35.42%的混合磁选精矿,在磨矿细度为-0.045 mm占97%情况下,全流程试验获得了产率53.87%、TFe品位67.87%、SiO_(2)含量1.96%、TFe回收率86.15%的高品质铁精矿;磨矿细度为-0.045 mm占94%情况下,适当增大捕收剂RA用量,可获得产率54.76%、TFe品位67.14%、SiO_(2)含量2.09%、TFe回收率86.63%的高品质铁精矿。研究结果可作为选矿厂提铁降硅工艺流程优化决策依据,对类似性质难选铁矿石的高效开发利用具有参考价值。

不同w(SiO_(2))铁精矿高温烧结性能研究与优化配矿

本文以新钢4种不同w(SiO_(2))的铁精矿为研究对象,深入探讨同化性能、液相流动性能、烧结体固结强度和铁酸钙生成特性等高温烧结性能,并以此为基础,结合现场生产方案进行优化配矿烧结试验。结果表明:在固定碱度为1.95的条件下,随着铁精矿中w(SiO_(2))提高,液相生成温度降低,液相生成量显著增加,液相流动性改善,但w(SiO_(2))过高会对同化性能和烧结体固结强度产生负面影响;合理调控w(SiO_(2))是优化烧结成矿过程的液相特性以及改善烧结矿质量的关键;通过优化精矿配比使含铁原料的w(SiO_(2))分数由3.90%提高至3.99%,烧结机利用系数提高0.25 t/(m^(2)·h),烧结矿成品率和转鼓强度分别提高5.91%和8.12%,固体燃料消耗则降低5.59 kg/t,烧结矿指标显著改善。

云南金厂河铁矿石高效节能选矿工艺试验

云南金厂河铁矿为合理开发利用全铁品位30.47%的铁矿石,确定有效的选矿工艺流程,针对矿石中有用铁矿物嵌布粒度较细,且与脉石矿物紧密共生,导致矿石难以高效抛废的问题,在碎选工艺引入了高压辊磨超细碎选择性碎解技术,并与常规破碎(-10 mm)湿式磁选预选抛尾工艺进行了对比试验。试验结果表明:在磁性铁回收率相近的情况下,采用高压辊磨—湿式预选工艺抛出的尾矿量明显提高,高压辊磨湿式预选精矿分别采用两段阶段磨矿—单一磁选工艺和两段阶段磨矿—磁选—磁选柱分选工艺,最终获得的分选指标相近,基于降本增效及节能减排的目标,推荐高压辊磨—湿式磁选—两段阶段磨矿—磁选—磁选柱分选工艺,作为该铁矿石的原则选矿工艺流程。

四川某低品位弱磁性铁矿脉动高梯度磁选试验研究

四川某铁矿石原矿铁品位较低为25.40%,硅酸铁分布率达55.04%,可利用的铁矿物以赤铁矿、褐铁矿等弱磁性矿物为主,理论回收率为44.06%。由于铁矿物嵌布粒度细,回收利用难度大,综合考虑经济成本和技术可行性,拟定了“磨矿—脉动高梯度磁选粗选—粗精矿再磨—脉动高梯度磁选精选”的技术路线分选该矿石。通过脉动高梯度磁选粗选条件试验着重考察了磨矿细度、磁感应强度、脉动频率和矿浆流速对粗选结果的影响,确定了最佳粗选条件为:原矿磨矿细度-0.074mm粒级占80%、磁感应强度0.6T、脉动频率250r/min、矿浆流速6cm/s,在此条件下粗选可获得铁品位34.97%、回收率67.74%的粗精矿;为进一步提高粗精矿铁品位,对粗精矿再磨后进行精选,在粗精矿再磨细度-0.038mm粒级占97.16%、磁感应强度0.4T、脉动频率350r/min、矿浆流速8cm/s的条件下,可获得铁品位41.08%、回收率37.40%的精矿产品。在上述最佳分选条件下,经过“一粗一精”开路磁选工艺流程,所得精矿产品铁品位由25.40%提升至41.08%,提升幅度较大,铁回收率37.40%接近理论回收率,有害元素S、P和As含量较低,满足了对精矿产品的质量要求,选别指标理想。采用脉动高梯度磁选工艺选别该类铁矿石,选别工艺简单、分选指标好,为低品位、弱磁性铁矿石的回收利用提供了有效的分选方案。

高硅铁精粉直接还原实践及金属化球团微观结构分析

对某企业周边高硅铁精矿进行配煤压球,并在Φ2.8 m×48 m回转窑开展煤基氢冶金还原试验,分析研究内配煤量对铁氧化物还原的影响。试验结果表明:在1100℃的窑温条件下,高硅铁精粉配煤10%,可得到金属化率90%以上金属化球团。从理论上讲,在入高炉的炉料中配加金属化球团,可增加高炉入炉原料的金属化程度,对增加高炉产量、降低焦比等均有明显的效果。本试验得到的金属化球团强度满足高炉使用要求,且含有20%以上的SiO _(2),可做为酸性球团供高炉使用。同时,通过金属化球团矿相和扫描电镜分析,掌握了Fe、O、Si等主要元素赋存形式及含量。

LiMn_(0.75)Fe_(0.25)PO_(4)基混合正极材料性能调控研究

重安全、降成本是未来锂电池发展的趋势。为了兼顾磷酸锰铁锂的高安全性能和三元正极材料的高比容量,采用物理混合法将磷酸锰铁锂(LMFP)与三元正极材料(NCM)进行混合,探究了不同混合量和充放电区间对混合正极材料电化学性能的影响。优化结果表明,掺入NCM后,电压跳水现象得到抑制,掺杂量为30%时,在25℃室温、2.0~4.4 V、1 C条件下循环200次,剩余比容量131.8mAh/g,容量保持率为96.3%。同时,穿刺实验中看不到明显的火花现象。

Influence of Mechanical Activation on Acid Leaching Dephosphorization of High-phosphorus Iron Ore Concentrates

High pressure roll grinding（HPRG）and ball milling were compared to investigate the influence of mechanical activation on the acid leaching dephosphorization of a high-phosphorus iron ore concentrate,which was manufactured through magnetizing roasting-magnetic separation of high-phosphorus oolitic iron ores.The results indicated that when high-phosphorus iron ore concentrates containing 54.92 mass% iron and 0.76 mass% phosphorus were directly processed through acid leaching,iron ore concentrates containing 55.74mass%iron and 0.33mass%phosphorus with an iron recovery of 84.64%and dephosphorization of 63.79% were obtained.When high-phosphorus iron ore concentrates activated by ball milling were processed by acid leaching,iron ore concentrates containing56.03mass%iron and 0.21mass% phosphorus with an iron recovery of 85.65% and dephosphorization of 77.49%were obtained.Meanwhile,when high-phosphorus iron ore concentrates activated by HPRG were processed by acid leaching,iron ore concentrates containing 58.02mass%iron and 0.10mass% phosphorus were obtained,with the iron recovery reaching 88.42% and the dephosphorization rate reaching 88.99%.Mechanistic studies demonstrated that ball milling can reduce the particle size,demonstrating aprominent reunion phenomenon.In contrast,HPRG pretreatment contributes to the formation of more cracks within the particles and selective dissociation of iron and P bearing minerals,which can provide the favorable kinetic conditions to accelerate the solid-liquid reaction rate.As such,the crystal structure is destroyed and the surface energy of mineral particles is strengthened by mechanical activation,further strengthening the dephosphorization.

利用X射线荧光光谱快速分析高锰生铁锰含量

高锰生铁(又称镜铁)是用锰矿石经过高温冶炼富锰渣时产生的一种衍生产物,其锰含量为6%~20%,本文将详细阐述检测中心利用X射线荧光光谱快速分析高锰生铁锰含量。

响应面法优化电化学-铁粉还原法处理高浓度硝酸盐电镀废水工艺

[目的]将电化学法和铁粉还原法相结合处理高浓度硝酸盐模拟电镀废水,通过响应面法优化处理工艺。[方法]采用中心复合法设计试验,研究了电压、初始p H、氯离子质量浓度和搅拌强度对硝酸盐去除效率的影响。[结果]在电压为13 V、初始pH为1、极间距为1.2 cm、氯离子质量浓度为3000 mg/L、搅拌强度为450 r/min的条件下电解60 min后,硝酸盐和总氮的去除率分别达到84.04%和81.37%。[结论]采用电化学-铁粉还原法能够有效去除电镀废水中高浓度的硝酸盐。

国内铁精矿粉制备气基竖炉专用高品位球团矿

随着钢铁行业碳减排压力的增大,气基竖炉-电炉短流程工艺的应用可有效降低碳排放,高品位球团矿作为气基竖炉冶炼原料,其制备过程及特性研究尤为重要。本文使用国内6种不同的铁精矿粉制备高品位球团矿,阐述了球团矿的制备过程,研究了球团矿的性能。结果表明:最佳配矿方案为70%矿粉1+30%矿粉2,此配矿生球抗压强度为11 N/球,落下强度为3.1次/球;配矿球团矿w(FeO)为1.00%,铁精矿成品球团矿w(FeO)≥0.59%,亚铁含量较低,氧化充分,球团矿质量受控;配矿成品球团矿的抗压强度达到3031 N/球,铁精矿成品球团矿抗压强度≥3200 N/球,质量满足生产要求;还原性指数≥4.000,还原膨胀指数≥7.45%,LTD_(+6.3)≥97.00%,LTD_(UP)均为100%,还原性能良好。通过对现有设备的技术改造及配矿方案的优化,使用国内铁精矿粉可以制备出满足气基竖炉生产标准的优质高品位球团矿。

江西某高铁硫精矿选铜试验

为高效回收利用江西某高铁硫精矿中的铜资源,在矿石性质研究的基础上,进行了浮选工艺试验。试验结果表明:采用Z-200作为铜矿物捕收剂,在磨矿细度为-0.074 mm80%、CaO用量1 000 g/t、Z-200用量45 g/t的条件下,采用1粗3精2扫优先浮选闭路流程,可获得铜品位15.58%、铜回收率91.04%的铜精矿,有效回收了该高铁硫精矿中的铜资源。