烧结铁矿中FeO含量对其在富氢高炉中还原行为的影响

Japan started the national project “COURSE 50” for CO₂ reduction in the 2000s. This project aimed to establish novel technologies to reduce CO₂ emissions with partially utilization of hydrogen in blast furnace-based ironmaking by 30% by around 2030 and use it for practical applications by 2050. The idea is that instead of coke, hydrogen is used as the reducing agent, leading to lower fossil fuel consumption in the process. It has been reported that the reduction behavior of hematite, magnetite, calcium ferrite, and slag in the sinter is different, and it is also considerably influenced by the sinter morphology. This study aimed to investigate the reduction behavior of sinters in hydrogen enriched blast furnace with different mineral morphologies in CO–CO₂–H₂ mixed gas. As an experimental sample, two sinter samples with significantly different hematite and magnetite ratios were prepared to compare their reduction behaviors. The reduction of wustite to iron was carried out at 1000, 900, and 800°C in a CO–CO₂–H₂ atmosphere for the mineral morphology-controlled sinter, and the following findings were obtained. The reduction rate of smaller amount of FeO led to faster increase of the reduction rate curve at the initial stage of reduction. Macro-observations of reduced samples showed that the reaction proceeded from the outer periphery of the sample toward the inside, and a reaction interface was observed where reduced iron and wustite coexisted. Micro-observations revealed three layers, namely, wustite single phase in the center zone of the sample, iron single phase in the outer periphery zone of the sample, and iron oxide-derived wustite FeO and iron, or calcium ferrite-derived wustite 'FeO' and iron in the reaction interface zone. A two-interface unreacted core model was successfully applied for the kinetic analysis of the reduction reaction, and obtained temperature dependent expressions of the chemical reaction coefficients from each mineral phases.     

具有良好可再生性的新型二氧化硅磁性氧化石墨烯纳米复合材料

Graphene oxide (GO) wrapped Fe₃O₄ nanoparticles (NPs) were prepared by coating the Fe₃O₄ NPs with a SiO₂ layer, and then modifying by amino groups, which interact with the GO nanosheets to form covalent bonding. The SiO₂ coating layer plays a key role in integrating the magnetic nanoparticles with the GO nanosheets. The effect of the amount of SiO₂ on the morphology, structure, adsorption, and regenerability of the composites was studied in detail. An appropriate SiO₂ layer can effectively induce the GO nanosheets to completely wrap the Fe₃O₄ NPs, forming a core-shell Fe₃O₄@SiO₂@GO composite where Fe₃O₄@SiO₂ NPs are firmly encapsulated by GO nanosheets. The optimized Fe₃O₄@SiO₂@GO sample exhibits a high saturated adsorption capacity of 253 mg·g?1 Pb(II) cations from wastewater, and the adsorption process is well fitted by Langmuir adsorption model. Notably, the composite displays excellent regeneration, maintaining a ~90% adsorption capacity for five cycles, while other samples decrease their adsorption capacity rapidly. This work provides a theoretical guidance to improve the regeneration of the GO-based adsorbents.     

Mg和La对Ca–Ti 处理钢中夹杂物演变和组织的影响

The evolution of inclusions and the formation of acicular ferrite (AF) in Ca–Ti treated steel was systematically investigated after Mg and La addition. The inclusions in the molten steel were Ca–Al–O, Ca–Al–Mg–O, and La–Mg–Ca–Al–O after Ca, Mg, and La addition, respectively. The type of oxide inclusion in the final quenched samples was the same as that in the molten steel. However, unlike those in molten steel, the inclusions were Ca–Al–Ti–O + MnS, Ca–Mg–Al–Ti–O + MnS, and La–Ca–Mg–Al–Ti–O + MnS in Mg-free, Mg-containing, and La-containing samples, respectively. The inclusions distributed dispersedly in the La-containing sample. In addition, the average size of the inclusions in the La-containing sample was the smallest, while the number density of inclusions was the highest. The size of effective inclusions (nucleus of AF formation) was mainly in the range of 1–3 μm. In addition, the content of ferrite side plates (FSP) decreased, while the percentage of AF increased by 16.2% due to the increase in the number of effective inclusions in the La-containing sample in this study.     

微波预处理对复杂铜矿磨矿及浮选动力学的影响

The effect of CaCO₃, Na₂CO₃, and CaF₂ on the reduction roasting and magnetic separation of high-phosphorus iron ore containing phosphorus in the form of Fe₃PO₇ and apatite was investigated. The results revealed that Na₂CO₃ had the most significant effect on iron recovery and dephosphorization, followed by CaCO₃, the effect of CaF₂ was negligible. The mechanisms of CaCO₃, Na₂CO₃, and CaF₂ were investigated using X-ray diffraction (XRD), scanning electron microscopy and energy dispersive spectrometry (SEM–EDS). Without additives, Fe₃PO₇ was reduced to elemental phosphorus and formed an iron–phosphorus alloy with metallic iron. The addition of CaCO₃ reacted with Fe₃PO₇ to generate an enormous amount of Ca₃(PO₄)₂ and promoted the reduction of iron oxides. However, the growth of iron particles was inhibited. With the addition of Na₂CO₃, the phosphorus in Fe₃PO₇ migrated to nepheline and Na₂CO₃ improved the reduction of iron oxides and growth of iron particles. Therefore, the recovery of iron and the separation of iron and phosphorus were the best. In contrast, CaF₂ reacted with Fe₃PO₇ to form fine Ca₃(PO₄)₂ particles scattered around the iron particles, making the separation of iron and phosphorus difficult.     

不同硅饱和系数水榴石的碳酸化分解动力学

Carbonated decomposition of hydrogarnet is one of the vital reactions of the calcification–carbonation method, which is designed to dispose of low-grade bauxite and Bayer red mud and is a novel eco-friendly method. In this study, the effect of the silica saturation coefficient (x) on the carbonation of hydrogarnet was investigated from the kinetic perspective. The results indicated that the carbonation of hydrogarnets with different x values (x = 0.27, 0.36, 0.70, and 0.73) underwent two stages with significantly different rates, and the kinetic mechanisms of the two stages can be described by the kinetic functions R3 and D3. The apparent activation energies at Stages 1 and 2 were 41.96–81.64 and 14.80–34.84 kJ/mol, respectively. Moreover, the corresponding limiting steps of the two stages were interfacial chemical reaction and diffusion.     

一种超重力燃烧合成制备高性能高熵合金的新方法

A new method of high-gravity combustion synthesis (HGCS) followed by post-treatment (PT) is reported for preparing high-performance high-entropy alloys (HEAs), Cr_0.9FeNi_2.5V_0.2Al_0.5 alloy, whereby cheap thermite powder is used as the raw material. In this process, the HEA melt and the ceramic melt are rapidly formed by a strong exothermic combustion synthesis reaction and completely separated under a high-gravity field. Then, the master alloy is obtained after cooling. Subsequently, the master alloy is sequentially subjected to conventional vacuum arc melting (VAM), homogenization treatment, cold rolling, and annealing treatment to realize a tensile strength, yield strength, and elongation of 1250 MPa, 1075 MPa, and 2.9%, respectively. The present method is increasingly attractive due to its low cost of raw materials and the intermediate product obtained without high-temperature heating. Based on the calculation of phase separation kinetics in the high-temperature melt, it is expected that the final alloys with high performance can be prepared directly across master alloys with higher high-gravity coefficients.     

窄板坯结晶器内连铸工艺参数对钢液流场的影响

Computational simulations and high-temperature measurements of velocities near the surface of a mold were carried out by using the rod deflection method to study the effects of various operating parameters on the flow field in slab continuous casting (CC) molds with narrow widths for the production of automobile exposed panels. Reasonable agreement between the calculated results and measured subsurface velocities of liquid steel was obtained under different operating parameters of the CC process. The simulation results reveal that the flow field in the horizontal plane located 50 mm from the meniscus can be used as the characteristic flow field to optimize the flow field of molten steel in the mold. Increases in casting speed can increase the subsurface velocity of molten steel and shift the position of the vortex core downward in the downward circulation zone. The flow field of liquid steel in a 1040 mm-wide slab CC mold can be improved by an Ar gas flow rate of 7 L·min?1 and casting speed of 1.7 m·min?1. Under the present experimental conditions, the double-roll flow pattern is generally stable at a submerged entry nozzle immersion depth of 170 mm.     

电渣重熔脱硫技术研究进展

Electroslag remelting (ESR) gives a combination of liquid metal refining and solidification structure control. One of the typical aspects of liquid metal refining during ESR for the advanced steel and alloy production is desulfurization. It involves two patterns, i.e., slag–metal reaction and gas–slag reaction (gasifying desulfurization). In this paper, the advances in desulfurization practices of ESR are reviewed. The effects of processing parameters, including the initial sulfur level of consumable electrode, remelting atmosphere, deoxidation schemes of ESR, slag composition, melting rate, and electrical parameters on the desulfurization in ESR are assessed. The interrelation between desulfurization and sulfide inclusion evolution during ESR is discussed, and advancements in the production of sulfur-bearing steel at a high-sulfur level during ESR are described. The remaining challenges for future work are also proposed.     

利用皮秒激光烧蚀制备非球形铝纳米颗粒

We report the picosecond laser ablation of aluminum targets immersed in a polar organic liquid (chloroform, CHCl₃) with ~2 ps laser pulses at an input energy of ~350 μJ. The synthesized aluminum nanoparticles exhibited a surface plasmon resonance peak at ~340 nm. Scanning electron microscopy images of Al nanoparticles demonstrated the spherical morphology with an average size of (27 ± 3.6) nm. The formation of smaller spherical Al nanoparticles and the diminished growth could be from the formation of electric double layers on the Al nanoparticles. In addition to spherical aluminum nanoparticles, triangular/pentagonal/hexagonal nanoparticles were also observed in the colloidal solution. Field emission scanning electron microscopy images of ablated Al targets demonstrated laser induced periodic surface structures (LIPSSs), which were the high spatial frequency LIPSSs (HSF-LIPSSs) since their grating period was ~280 nm. Additionally, coarse structures with a period of ~700 nm were observed.     

海南岛地体及其毗邻陆缘晚中生代—新生代古地磁研究和构造演化

本文叙述了对海南岛及其毗邻大陆边缘白垩纪到第四纪地层岩石进行古地磁研究的全部工作过程。通过分析岩石中剩余磁矢量的磁偏角及磁倾角的变化,提出海南岛白垩纪以来经历的构造演化模式如下:早期伴随顺时针旋转而向南迁移,后期伴随逆时针转动并向北运移。联系该地区及邻区的地质、地球物理资料,对海南岛上述的构造地体运动提出以下认识:北部湾内早期有一拉张作用,主要是该作用使湾内地壳显著伸长减薄,形成北部湾盆地。从而导致了海南岛的早期构造运动,而海南岛后期的构造运动则主要是受南海海底扩张的影响。海南地体运动规律的阐明对于了解北部湾油气盆地的形成演化有重要的理论和实际意义。     

普通话朗读中的停延

学习普通话的重要环节是在语流中模仿普通话的节律。停延作为节律的基础,确定了语流中的音步组合,进而关系到协同发音、连续变调等一系列语音现泉。停延的研究对于普通话的朗读教学具有重要的现实意义。该文以《普通话水平测试实施纲要》提供的60篇短文为语料,对于文中的停顿做出了定量、定性的分析：普通话的音步组合层的平均长度为5—7个音节,影响各篇短文音步组合层长度的主要因素是文体风格。该文根据60篇短文的语音资料,提出了设置句中无标点停顿的语义原则、语法原则、语用原则。根据语义原则,只能在有助于语义表达的地方停顿。根据语法原则,只能在构成语法结构的地方停顿。如果在某种情况下构成了非语法停顿,那是为了满足节律的需要。根据语用原则,人们通过对语境的分析,以停顿为手段,实现表情达意的最佳效果和节奏的匀称感。文中以大量例句,对各种语法结构中的语音停顿现泉进行比较说明,做出了令人信服的阐释。     

石油勘探开发建设项目评价系统探讨

石油勘探开发建设项目评价是石油勘探开发建设项目管理的重要内容之一,也是提高项目决策科学性的一个重要环节。首先分析了石油勘探开发建设项目评价的理论和方法,然后从项目前评价、项目中评价、项目后评价、技改项目评价四部分讨论了项目评价的基本内容,并在此基础上构建出了新的项目评价系统。指出:新的项目评价系统与传统的评价系统[1]的最大区别在于增加了项目中评价内容,并且对其它大、中型建设项目也是适用的。     

不同碳氮源对嗜热菌BF80生长和降解苯酚的影响

探测了蛋白胨,酵母粉,葡萄糖对BF80菌生长和降解苯酚的影响．结果表明：与对照相比,0．05％-1％的蛋白胨能促进BF80的生长却抑制该菌的苯酚降解,这种作用随浓度的增加而增大;酵母粉对BF80生长和苯酚降解均有促进作用,在最适浓度0．1％的情况下其生长量OD600达到1．578,苯酚降解率上升到99．21％;不同浓度的葡萄糖对BF80的生长和苯酚降解几乎都没有影响．     

建构中国古代文学审美理论:动因和方法

从提高“”的审美能力、“史”的认知能力、“论”的理解能力等方面阐述了建构中国古代学审美理论体系的动因，从注重古人创作和审美的实际、用今人的观点来透视、把定向观照和多向思维结合起来等方面探讨了建构这种理论的方法。目的在于使中国古代学理论的研究既有传统性又有现代性，既有本土性又有世界性。     

甘草的生药解剖学研究

观察比较三个甘草种１～４年生主根及根茎内部结构，主根共同特征和次生结构与一般双子叶植物基本相同．各年主根增粗主要是次生维管束个数稍有增多，射线、木射线伸入根中心，致使细胞增多、增大．根茎具有茎次生结构．三个种的粉末可看到淀粉粒、纤维、导管、品鞘纤维、射线薄壁细胞、筛管、棕色块、木栓细胞．     

应用于周期间歇性脉冲负载的复合电源机理与实验研究

针对周期间歇性脉冲负载对蓄电池循环寿命的影响,优化蓄电池的工作状态,引入蓄电池－超级电容器复合电源解决方案,充分发挥蓄电池比能量大和超级电容器比功率大的优势.选择蓄电池与超级电容器直接并联的被动式结构复合电源作为研究对象,并对被动式结构复合电源结构进行改进.在MATLAB仿真环境下,对应用于周期间歇性脉冲负载的蓄电池单一电源、被动式结构复合电源和改进型被动式结构复合电源进行对比仿真研究,同时搭建实验平台,进行对比实验研究.仿真和实验结果均表明,改进型被动式结构复合电源相比于其他两种电源,由于超级电容器对蓄电池功率的充分补偿,蓄电池放电过程得到优化,伴随着放电电流曲线更加平滑.     

三昧:佛教审美感悟的主要形式

佛教对中国古代学创作和审美产生了巨大影响，这已经是不争的问题。而在感应外物的心理知觉上与学审美究竟有何内在联系及区别，则又大多语焉不详，或详而无纲、油水分离。笔从佛教教义中拈出“三昧”两个字，深入探寻佛教审美感悟的主要方式，分析它与庄子“心斋”及俗人梦幻的同异，这对中国古代学审美理论的梳理和建构都有重要意义。     

隐喻:科学与人文的互补整合机制

文章通过语言隐喻性本性的阐述,提出了隐喻同样是人类理性的题中应有之义的思想．并以数学史中逻辑与直觉、精确与模糊的互补性,科学范式中的人文价值因素为佐证,论述了隐喻是科学与人文互补整合机制的一个方面或环节。而理性忘却了其隐喻的基础和功能,人类为此付出了沉重的代价（如全球性问题）。文章通过对科学前沿有关“不确定性”信息的反思．认为“不确定性”并不是什么“科学的终结”．而是意味着无限发展的可能性,预示着一种新的科学范式的诞生乃至一场新的科学革命的来临。其核心是超越旧的理性形式、建构新的理性形式。     

龙胆地上、地下部分药理作用的比较分析

比较龙胆地上、地下部分 ,利尿、抗菌、抗炎药理作用 ,为扩大用药部位提供依据。在利尿作用方面 ,龙胆地下部分明显优于地上部分 ;在抗炎方面 ,龙胆地上部分明显优于地下部分 ;在抗菌方面 ,龙胆地上部分和地下部分相差不大。结论为龙胆的地上部分同样具有抗炎、抗菌、利尿的药理作用 ,并且其抗炎作用还强于地下部分 ,因此龙胆地上部分可以替代地下部分的药用