氧化锌矿物浸出渣中铅、锶的提取及动力学分析

NH₄HCO₃ conversion followed by HCl leaching was performed and proven to be effective in extracting Pb and Sr from zinc extracted residual. The mechanism and operating conditions of NH₄HCO₃ conversion, including molar ratio of NH₄HCO₃ to zinc extracted residual, NH₄HCO₃ concentration, conversion temperature, conversion time, and stirring velocity, were discussed, and operating conditions were optimized by the orthogonal test. Experimental results indicate that NH₄HCO₃ conversion at temperatures ranging from 25 to 85°C follows the shrinking unreacted core model and is controlled by inner diffusion through the product layer. The extraction ratios of Pb and Sr under optimized conditions reached 85.15% and 87.08%, respectively. Moreover, the apparent activation energies of Pb and Sr were 13.85 and 13.67 kJ·mol?1, respectively.     

基于响应曲面法的铁焦冶金性能多目标协同优化

Iron carbon agglomerates (ICA) are used to realize low-carbon blast furnace ironmaking. In this study, the central composite design based on response surface methodology was used to synergistically optimize the compressive strength, reactivity, and post-reaction strength of ICA. Results show that the iron ore addition ratio significantly influences the compressive strength, reactivity, and post-reaction strength of ICA. The iron ore addition ratio and carbonization temperature or the iron ore addition ratio and carbonization time exert significant interaction effects on the compressive strength and reactivity of ICA, but it has no interaction effects on the post-reaction strength of ICA. In addition, the optimal process parameters are as follows: iron ore addition ratio of 15.30wt%, carbonization temperature of 1000°C, and carbonization time of 4.27 h. The model prediction results of compressive strength, reactivity, and post-reaction strength are 4026 N, 55.03%, and 38.24%, respectively, which are close to the experimental results and further verify the accuracy and reliability of the models.     

皮秒Nd:YAG激光对生物金属纯Ti和Ti–13Nb–13Zr合金的表面改性

The effects of picosecond Nd:YAG laser irradiation on chemical and morphological surface characteristics of the commercially pure titanium and Ti–13Nb–13Zr alloy in air and argon atmospheres were studied under different laser output energy values. During the interaction of laser irradiation with the investigated materials, a part of the energy was absorbed on the target surface, influencing surface modifications. Laser beam interaction with the target surface resulted in various morphological alterations, resulting in crater formation and the presence of microcracks and hydrodynamic structures. Moreover, different chemical changes were induced on the target materials’ surfaces, resulting in the titanium oxide formation in the irradiation-affected area and consequently increasing the irradiation energy absorption. Given the high energy absorption at the site of interaction, the dimensions of the surface damaged area increased. Consequently, surface roughness increased. The appearance of surface oxides also led to the increased material hardness in the surface-modified area. Observed chemical and morphological changes were pronounced after laser irradiation of the Ti–13Nb–13Zr alloy surface.     

汽车用废弃锂离子电池的减量化、再生及回收研究进展

The demand for Li-ion batteries (LIBs) for vehicles is increasing. However, LIBs use valuable rare metals, such as Co and Li, as well as environmentally toxic reagents. LIBs are also necessary to utilize for a long period and to recycle useful materials. The reduction, reuse, and recycle (3R) of spent LIBs is an important consideration in constructing a circular economy. In this paper, a flowsheet of the 3R of LIBs is proposed and methods to reduce the utilization of valuable rare metals and the amount of spent LIBs by remanufacturing used parts and designing new batteries considering the concept of 3R are described. Next, several technological processes for the reuse and recycling of LIBs are introduced. These technologies include discharge, sorting, crushing, binder removal, physical separation, and pyrometallurgical and hydrometallurgical processing. Each process, as well as the related physical, chemical, and biological treatments, are discussed. Finally, the problem of developed technologies and future subjects for 3R of LIBs are described.     

传统加热和微波加热下氧化锰矿的碳热还原行为研究

For the purpose of exploring a potential process to produce FeMn, the effects of microwave heating on the carbothermal reduction characteristics of oxidized Mn ore was investigated. The microwave heating curve of the mixture of oxidized Mn ore and coke was analyzed in association with the characterization of dielectric properties. The comparative experiments were conducted on the carbothermal reductions through conventional and microwave heatings at temperatures ranging from 973 to 1373 K. The thermogravimetric analysis showed that carbothermal reactions under microwave heating proceeded to a greater extent and at a faster pace compared with those under conventional heating. The metal phases were observed in the microstructures only under microwave heating. The carbothermal reduction process under microwave heating was discussed. The electric and magnetic susceptibility differences were introduced into the thermodynamics analysis for the formation of metal Mn. The developed thermodynamics considered that microwave heating could make the reduction of MnO to Mn more accessible and increase the reduction extent.     

机械合金化法制备的Cu/SiC纳米复合材料的组织、热性能和力学性能评估

Nano-sized silicon carbide (SiC: 0wt%, 1wt%, 2wt%, 4wt%, and 8wt%) reinforced copper (Cu) matrix nanocomposites were manufactured, pressed, and sintered at 775 and 875°C in an argon atmosphere. X-ray diffraction (XRD) and scanning electron microscopy were performed to characterize the microstructural evolution. The density, thermal expansion, mechanical, and electrical properties were studied. XRD analyses showed that with increasing SiC content, the microstrain and dislocation density increased, while the crystal size decreased. The coefficient of thermal expansion (CTE) of the nanocomposites was less than that of the Cu matrix. The improvement in the CTE with increasing sintering temperature may be because of densification of the microstructure. Moreover, the mechanical properties of these nanocomposites showed noticeable enhancements with the addition of SiC and sintering temperatures, where the microhardness and apparent strengthening efficiency of nanocomposites containing 8wt% SiC and sintered at 875°C were 958.7 MPa and 1.07 vol%?1, respectively. The electrical conductivity of the sample slightly decreased with additional SiC and increased with sintering temperature. The prepared Cu/SiC nanocomposites possessed good electrical conductivity, high thermal stability, and excellent mechanical properties.     

空冷条件下钛渣颗粒的氧化路径及氧化动力学

The oxidation pathway and kinetics of titania slag powders in air were analyzed using differential scanning calorimetry (DSC) andthermogravimetry (TG). The oxidation pathway of titania slag powder in air was divided into three stages according to their three exothermic peaks and three corresponding mass gain stages indicated by the respective non-isothermal DSC and TG curves. The isothermal oxidation kin-etics of high titania slag powders of different sizes were analyzed using the ln-ln analysis method. The results revealed that the entire isotherm-al oxidation process comprises two stages. The kinetic mechanism of the first stage can be described as f (α)=1.77 (1?α) [?ln (1?α)](1.77?1)/1.77 , f (α)=1.97 (1?α) [?ln (1?α)](1.97?1)/1.97 , and f (α)=1.18 (1?α) [?ln (1?α)](1.18?1)/1.18 . The kinetic mechanism of the second stage for all samples can be described as f (α)=1.5(1?α)2/3[1?(1?α)1/3]?1 . The activation energies of titania slag powders with different sizes (d1 < 0.075 mm, 0.125 mm < d2 < 0.150 mm, and 0.425 mm < d3 < 0.600 mm) for different reaction degrees were calculated. For the given experimental conditions, the rate-controlling step in the first oxidation stage of all the samples is a chemical reaction. The rate-controlling steps of the second oxidation stage are a chemical reaction and internal diffusion (for powders d1 < 0.075 mm) and internal diffusion (for powders 0.125 mm < d2 <0.150 mm and 0.425 mm < d3 < 0.600 mm).     

Morphology control of aluminum nitride (AlN) for a novel high-temperature hydrogen sensor

Hydrogen is a promising renewable energy source for fossil-free transportation and electrical energy generation. However, leaking hydrogen in high-temperature production processes can cause an explosion, which endangers production workers and surrounding areas. To detect leaks early, we used a sensor material based on a wide bandgap aluminum nitride (AlN) that can withstand a high-temperature environment. Three unique AlN morphologies (rod-like, nest-like, and hexagonal plate-like) were synthesized by a direct nitridation method at 1400°C using γ-AlOOH as a precursor. The gas-sensing performance shows that a hexagonal plate-like morphology exhibited p-type sensing behavior and showed good repeatability as well as the highest response (S = 58.7) toward a 750 ppm leak of H₂ gas at high temperature (500°C) compared with the rod-like and nest-like morphologies. Furthermore, the hexagonal plate-like morphology showed fast response and recovery times of 40 and 82 s, respectively. The surface facet of the hexagonal morphology of AlN might be energetically favorable for gas adsorption–desorption for enhanced hydrogen detection.     

铝基复合材料界面Al?Ce?Cu?W非晶层的热驱动固相非晶化研究

Interfacial Al?Ce?Cu?W amorphous layers formed through thermally driven solid-state amorphization within the (W+CeO₂)/2024Al composite were investigated. The elemental distributions and interfacial microstructures were examined with an electron probe microanalyzer and a high-resolution transmission electron microscope, respectively. The consolidation of composites consisted of two thermal processes: vacuum degassing (VD) and hot isostatic pressing (HIP). During consolidation, not only the three major elements (Al, W, and Ce) but also the alloying elements (Mg and Cu) in the Al matrix contributed to amorphization. At VD and HIP temperatures of 723 K and 763 K, interfacial amorphous layers were formed within the composite. Three diffusion processes were necessary for interfacial amorphization: (a) long-range diffusion of Mg from the Al matrix to the interfaces during VD; (b) long-range diffusion of Cu from the Al matrix to the interfaces during HIP; (c) short-range diffusion of W toward the Al matrix during HIP. The newly formed interfacial Al?Ce?Cu?W amorphous layers can be categorized under the Al?Ce?TM (TM: transition metals) amorphous system.     

细粒夹层对尾矿坝毛细带水分迁移的影响

Small-particle interlayers (lenticles) show some characteristic hydraulic properties and can affect the movement of unsaturated water. In this study, we developed a novel online capillary-water-absorption monitoring device and conducted three groups of comparison tests to simulate lenticle positions and thicknesses with respect to the capillary rise. The results show that the characteristic wetting front exhibits a fast rise in the early stage, a slow rise in the middle stage, and stability in the later stage. The motion of the capillary water in the lenticle is mainly transversal, with the upward curve being “flat,” and the longer is “flat,” the longer is the time needed for the water to move. The interlayer can form a capillary stagnation zone with moisture content close to saturation. The high interlayer may form a discontinuous corrugated capillary zone. Thus, when the wetting front reaches the “coarse-grain (lower)?fine-grain (upper)” interface, the “anti-capillary barrier effect” results in more moisture in the upper layer. Thus, when the wetting front of the capillary water reaches the “fine-grain (upper)?coarse-grain (lower)” interface, the “capillary barrier effect” causes the moisture content of the upper tailings to decreases sharply because of the horizontal movement of the water in the fine medium. It is clear that the presence of lenticles can retard the rise of capillary water by storing water.     

浙江温州、镇海和福建九龙江沉积微型硅藻的初步研究

利用透射电镜研究了温州早、中全新世剖面,九龙江地区晚全新世中期剖面和镇海晚全新世剖面的微型硅藻(细胞大小为2～20μm)的组成和丰度.共计硅藻14属20种(包括变种).Cyclotellacaspia是九龙江地区晚全新世中期剖面中的优势种;温州中全新世剖面的优势种为Cyclotellastriata;温州早全新世剖面和镇海晚全新世剖面中Thalassionemanitzschioides是优势种.微型硅藻在几个剖面中所占的比例变化较大,以在九龙江地区晚全新世中期剖面所占的比例最高,可达77.4%,表明微型硅藻在沉积硅藻中占有重要的地位.     

魔芋在不同土壤环境条件的含硒量

通过分析从湖北恩施采集的野外魔芋样品和2种土壤加硒盆栽实验的魔芋样品的含硒量,研究魔芋在不同土壤环境中的含硒量、富硒特征及其影响因素.结果表明,随采样点不同,野外魔芋样品的含硒量不同,魔芋球茎和茎叶的最高含硒量为5.58和13.04μg g-1,并与土壤含硒量呈极显著的线性相关,茎叶含硒量高于球茎.盆栽实验条件下,魔芋含硒量与土壤施硒量呈极显著的线性相关,魔芋球茎和茎叶最高含硒量在潮土中为55.6和76.8μg g-1,在红壤中为14.5和21.4μg g-1,茎叶的含硒量显著高于球茎,潮土魔芋的含硒显著高于红壤.魔芋对土壤硒的生物富集系数均表现为茎叶高于球茎,潮土魔芋的生物富集系数高于红壤,土壤施硒的富集系数高于天然含硒土.总之,魔芋能吸收利用天然富硒土和施人到土壤中的硒,土壤类型和土壤硒水平是影响魔芋含硒的关键因素,土壤施硒的有效性高于天然含硒土,潮土施硒的有效性高于红壤.     

临夏回族青少年头发和指甲微量元素含量对比分析

对500名(男246,女254)13～17岁临夏回族青少年头发和指甲中的Fe、Cu、Ni、Zn、Mn、Pb、Cd、Mo、Se和Ca元素的含量进行了对比分析。结果表明这十种元素在人体的头发和指甲中均存在,但男女之间有差异,其共同特点是头发中的Cu、Zn高于指甲,Cd、Mo和Se元素的含量男女均极少,且无差异(p>0.05),男女指甲中的Pb、Fe含量均高于头发(p<0.05);男性指甲中的Mn高于头发(p<0.05),而在女性无显著差异;Ca作为一种常量元素,男女指甲中的含量均极显著地高于头发(p<0.01)。证实测定人体微量元素时,只测定头发中的含量不能完全代表元素的分布特征和变化情况,指甲和头发对于研究人体微量元素具有同等重要的意义。     

关于建设生态安徽之我见

通过对我国及省内外自然与人文生态环境存在问题的多侧面多角度剖析,从而对建设生态安徽提出加强森林保护和封山育林、植树造林、退耕还林工作,加强湿地保护,扩大风景名胜区和自然保护区面积,降低化肥农药使用强度和提高有机肥利用率,加强古建筑和名胜古迹保护,实现城市化、城市现代化、城市园林化,提高国民素质等建议与对策。     

三七道地与非道地产区药材及土壤微量元素分析

 通过分析三七在不同产区不同地质背景土壤与药材中微量元素的含量,探讨三七药材道地性与土壤微量元素的关系.应用电感耦合等离子体光电直读光谱仪分别对三七药材和土壤样品进行微量元素含量分析,所得数据用SPSS11.5软件进行分析比较.表明道地产区土壤中硅含量高而铜和镉含量低,道地药材三七中锌和锰含量高,不同的土壤地质背景药材及土壤微量元素有差异;三七药材与土壤中的铁和钡2种元素呈极显著正相关(P<0.01);铝、锰00、硼、铅4种元素呈显著正相关(P<0.05).因此,土壤地质背景是形成道地三七的重要成因之一.     

近五十年内蒙古大学校园内苔藓植物物种组成变化

苔藓植物是植物区系的一个重要组成部分,但我国对校园微环境苔藓植物多样性变化的研究仍处于空白阶段.2010年通过样方布设法对内蒙古大学校园内的苔藓植物进行采集,并通过镜下观察,将2010年所采集的标本与内蒙古大学馆藏1964年同样地的标本进行鉴定与比较.整理出1964年有苔藓植物9科、19属、31种,以耐旱藓类和生态幅度宽的藓类植物为主,2010年有12科、20属、42种,除了适应性强的藓类植物外,还增加了一些喜阴湿环境的苔藓植物,物种组成较早年丰富；区系地理成分均以北温带及世界广布种为主,这是研究地大环境地理气候决定的；两个年代苔藓植物物种相似性系数为0.4384,物种相似性较高；1964年校园内生境类型单一,分布物种较少,随着校园的建设,2010年生境类型多样,新增物种及校园内大多数物种主要集中分布于人工林、楼群背阴及开阔地湿润土生生境,另外,校园硬化、裸土面积减少、原水湿环境丧失导致了早年分布的部分物种退出校园环境,突显了生境多样性及环境变化对物种丰富度及分布的影响.     

整治工程后长江口南北槽的分流分沙季节特征

利用2009年2,4,8和11月共4次长江口南北槽的全潮水文泥沙测验数据,分析全年4个季节期间长江口南北槽的分流、分沙特征.结果表明:南槽的分流比、分沙比均大于北槽的分流比、分沙比,进入南港河道的水流、泥沙通过南槽的通量大于其通过北槽的通量.在春夏秋3个季节,南北槽均处于由陆向海输运格局;在冬季,南槽处于由海向陆输移状态,泥沙更易于南槽落淤,而北槽处于由陆向海净输移状态.与2006年,2007年冬季相比较,长江口三期整治工程实施后,北槽的水动力作用进一步加强.     

舟山黄大洋海域春夏季鱼类种类组成和分布特征

根据2010年5月、11月对黄大洋进行的2次拖网调查所获鱼类资料,分析了该海域鱼类种类组成、数量分布和多样性特征。结果表明:黄大洋春秋两季共出现鱼类48种,隶属于13目、28科,其中春季出现鱼类28种,秋季35种。春季优势种主要为六丝钝尾虾虎鱼、龙头鱼、棘头梅童鱼等,秋季龙头鱼和黄鲫在尾数和生物量上都占绝对优势。根据不同季节ABC曲线变化,黄大洋春秋季鱼类的丰度曲线均在生物量曲线之上,说明其鱼类群落处于不稳定的状态。秋季鱼类渔获率普遍高于春季,这主要与鱼类的生态习性有关,水平分布上黄大洋东面站位的渔获率两个季节均高于西面站位渔获率,其主要受水文环境影响。     

饱和含水土壤埋地原油管道冬季停输温降

建立了饱和含水土壤埋地原油管道在低于冰点环境温度下的停输流动和传热模型，该模型不仅考虑土壤水分结冰和管内原油凝固相变过程与初始温度场和流场的影响，而且考虑了水分在土壤多孔介质中和管内原油的自然对流。通过数值模拟，获得了停输期间温度场、流场以及土壤水分结冰界面和管道中原油凝固界面的分布情况。结果表明，停输期间越靠近管壁正上方的土壤，其温度梯度越大；受温度分布的影响，土壤水分和管内原油产生沿y轴对称线自下而上的自然对流；土壤水分结冰界面和管道中原油凝固界面随停输时间向埋深方向推进，管道顶部土壤中的结冰界面推进速度较远离管道土壤中的结冰界面缓慢，管内原油凝固界面也向埋深方向偏移。     

辽宁省击剑俱乐部发展情况的调查与分析

俱乐部是世界通行的培养击剑后备人才的最有效的一个途径.随着击剑运动在中国的开展和普及,击剑俱乐部也在辽宁兴起与开展起来,并为辽宁击剑后备人才的培养增加了新生力量.通过实地访谈、调查问卷等方式调查辽宁省目前的8所击剑俱乐部,记录辽宁省击剑俱乐部的分布、场馆面积、剑道、剑种、附属设施以及会员和教练的基本情况,分析会员在击剑俱乐部的运动时间、训练特征以及比赛和交流情况.结果表明,辽宁的击剑俱乐部均属商业性质且主要集中分布于沈阳、大连和鞍山,俱乐部的规模普遍不大,配套设施也不完善;会员以学龄儿童为主,缺少成人会员,男性多于女性,运动时间多为课余;俱乐部宣传推广不够,营销经验不足,省内俱乐部之间的比赛和交流次数太少.