超浸润形状记忆海绵的制备及油-水分离性能

基于反式 1,4-聚异戊二烯(TPI)的形状记忆性能, 以聚氨酯海绵为基底, 包覆TPI制备出了一种具有疏水超亲油特性的三维多孔形状记忆海绵. 由于这种海绵具有良好的形状记忆特性, 可以通过反复按压/恢复过程, 实现对海绵孔径在微米尺寸(约875 μm)与纳米尺寸(约450 nm)间可逆调控. 利用材料特殊的浸润特征及其可控的孔尺寸, 进一步研究了其在油-水分离中的应用. 研究结果表明, 微米尺寸大孔径海绵有利于对不相溶油-水混合物进行快速高效分离, 而纳米尺寸小孔径海绵则有利于对乳液混合物进行分离, 实现了同一材料同时满足不相溶油-水混合物及乳液体系的分离要求.     

KIT-6负载CeO2催化CO2和甲醇合成碳酸二甲酯

采用不同老化温度(80、100、120和150℃)合成了一系列KIT-6载体,并通过浸渍法制备了相应的CeO_2/KIT-6催化剂。结合X射线衍射、N_2物理吸附、NH_3程序升温脱附、CO_2程序升温脱附、透射电子显微镜、傅里叶变换红外光谱和X射线光电子能谱等表征结果,详细考察了老化温度对KIT-6结构以及CeO_2/KIT-6催化剂直接催化CO_2和甲醇合成碳酸二甲酯(DMC)反应活性的影响。结果表明,不同老化温度下制备的KIT-6均保持其独特的三维孔道结构。随着老化温度升高,KIT-6比表面积先增大后减小,当老化温度为100℃时,KIT-6比表面积达到最大(683 m~2·g~(-1))。KIT-6较高的比表面积有利于提高CeO_2分散度,进而提高暴露的活性位点数量,催化活性随催化剂表面中等碱/酸性吸附位数量和Ce~(3+)含量的增加而逐渐提高。其中,CeO_2/100-KIT-6催化剂中CeO_2颗粒尺寸最小(5.9 nm),暴露的活性位数量最高,催化活性最佳。随后,考察了反应温度和压力对CeO_2/100-KIT-6催化活性的影响。随着反应温度提高,催化活性先升高后降低,当反应温度为140℃时,催化活性最高;且催化活性随反应压力的提高而逐渐增加。在反应温度为140℃、压力为6.8 MPa条件下,催化剂经6次循环后,DMC收率由15 mmol·g_(CeO_2)~(-1)逐渐降低至2.8 mmol·g_(CeO_2)~(-1),原因归结为反应过程中CeO_2纳米颗粒发生团聚,使暴露出的活性位数量减少。     

高温超导飞轮储能系统磁悬浮力的仿真计算与分析

阐述了飞轮储能系统的基本结构,利用有限元分析软件ANSYS进行仿真分析,搭建模型进行磁悬浮力计算,并研究系统超导块与永磁体之间的间隙和半径等尺寸参数的改变对超导磁悬浮力大小的影响。在完成上述工作后,在原悬浮系统的基础上,在超导块外侧加上线圈,并分析线圈中所加电流密度大小的不同对超导磁悬浮力的影响。     

基于衍射层析理论的弱散射单颗粒粒径反演方法

衍射层析理论揭示了物体的散射场分布与物体的散射势之间存在傅里叶变换关系。基于衍射层析理论,提出一种反演未知折射率的浮游植物及其它弱散射颗粒粒径的方法。利用单波长、大角度范围内的散射光分布信息,通过傅里叶变换得到颗粒散射势的二次投影函数,进而获得颗粒粒径。进行数值仿真实验,并针对不同的测量角度范围、测量角度分辨率进行比较分析,结果表明:本文所开发的粒径反演算法可以通过测量大角度散射光分布,在适度噪声存在的情况下,准确反演与入射光波长相比拟的单个弱散射球形颗粒粒径。这一方法可用于测量未知折射率的浮游植物及其它微小颗粒粒径。     

直读光谱法测定实芯焊丝的操作技巧

石油化工压力容器制造过程中使用大量的合金焊接金属材料,其中实芯焊丝占70%以上,直径为1~5mm的焊丝占95%。焊接金属材料实芯焊丝长期用化学湿法分析进行测试,很难满足现代生产对分析效率的要求。直读光谱法测试速度快、准确度较高,能满足快速分析的生产要求。直读光谱法对所测样品有一定的要求[1-2],样品尺寸表面为25mm×25mm,厚度大于5mm,最小表面直径为16mm,高度在5~25mm之间。工厂压力容器制     

Graphene oxide assisted facile hydrothermal synthesis of LiMn0.6Fe0.4PO4 nanoparticles as cathode material for lithium ion battery

Assisted by graphene oxide（GO）,nano-sized LiMn0.6Fe0.4PO4 with excellent electrochemical performance was prepared by a facile hydrothermal method as cathode material for lithium ion battery.SEM and TEM images indicate that the particle size of LiMn0.6Fe0.4PO4（S2）was about 80 nm in diameter.The discharge capacity of LiMn0.6Fe0.4PO4 nanoparticles was 140.3 mAh-g^1 in the first cycle.It showed that graphene oxide was able to restrict the growth of LiMn0.6Fe0.4PO4 and it in situ reduction of GO could improve the electrical conductivity of LiMn0.6Fe0.4PO4 material.     

石墨烯负载的金属氧化物纳米颗粒的可控制备及催化性能

采用直接浸渍法、过氧化氢均相氧化沉积法和氨水催化水解法制备了石墨烯负载的铁、钴、镍金属氧化物纳米颗粒.研究了三种沉积方法对颗粒尺寸分布的影响;采用透射电子显微镜、傅里叶变换红外光谱、X射线衍射和X射线光电子能谱表征了催化剂的形貌与结构.用过氧化氢均相氧化沉淀法可制得粒径分布最均匀的纳米颗粒.过氧化氢的氧化作用可使石墨烯表面的氧化基团含量最大化,为纳米颗粒提供了足够的吸附与成核点.氨水加速了金属离子的水解与成核,导致纳米颗粒的粒径增大与不均.以苯甲醇氧化为探针反应考察了催化剂的性能.催化剂的活性按以下顺序逐渐下降:过氧化氢辅助沉积法>直接浸渍法>氨水催化水解法,与纳米颗粒尺寸增长趋势一致.纳米催化剂颗粒尺寸与其活性的良好关联性显示,发展石墨烯负载尺寸可控的纳米催化剂的方法具有重要意义.     

Investigation of Hydrolysis in Poly（ethylene terephthalate） by FTIR-ATR

The hydrothermal aging of poly(ethylene terephthalate)(PET) was investigated at 70 95 °C. A new method to investigate the hydrolysis degree of PET by Fourier transform infrared spectroscopy(FTIR) was proposed. The spectra during the hydrothermal aging were measured using attenuated total reflection accessory(ATR). Peak resolving of carbonyl regions was performed, and the ratio of two groups of bands representing carboxylic acids and esters respectively were calculated to show the hydrolysis degree of ester groups in PET. The acid/ester ratio shows exactly the same trend as the average chain scission number per unit mass at various temperatures and thus can be used as a parameter to characterize the hydrolysis and random chain scission of PET. This method related to the hydrolysis mechanism directly, is simple, fast and convenient compared to the traditional methods such as viscometry, end-group titration and size exclusion chromatography(SEC). It may also be useful in hydrolysis characterization of other polyesters.     

常见客体分子对笼型水合物晶格常数的影响

Natural gas hydrates are considered as ideal alternative energy resources for the future, and the relevant basic and applied research has become more attractive in recent years. The influence of guest molecules on the hydrate crystal lattice parameters is of great significances to the understanding of hydrate structural characteristics, hydrate formation/decomposition mechanisms, and phase stability behaviors. In this study, we test a series of artificial hydrate samples containing different guest molecules (e.g. methane, ethane, propane, iso-butane, carbon dioxide, tetrahydrofuran, methane + 2, 2-dimethylbutane, and methane + methyl cyclohexane) by a low-temperature powder X-ray diffraction (PXRD). Results show that PXRD effectively elucidates structural characteristics of the natural gas hydrate samples, including crystal lattice parameters and structure types. The relationships between guest molecule sizes and crystal lattice parameters reveal that different guest molecules have different controlling behaviors on the hydrate types and crystal lattice constants. First, a positive correlation between the lattice constants and the van der Waals diameters of homologous hydrocarbon gases was observed in the single-guest-component hydrates. Small hydrocarbon homologous gases, such as methane and ethane, tended to form sI hydrates, whereas relatively larger molecules, such as propane and iso-butane, generated sⅡ hydrates. The hydrate crystal lattice constants increased with increasing guest molecule size. The types of hydrates composed of oxygen-containing guest molecules (such as CO₂ and THF) were also controlled by the van der Waals diameters. However, no positive correlation between the lattice constants and the van der Waals diameters of guest molecules in hydrocarbon hydrates was observed for CO₂ hydrate and THF hydrate, probably due to the special interactions between the guest oxygen atoms and hydrate "cages". Furthermore, the influences of the macromolecules and auxiliary small molecules on the lengths of the different crystal axes of the sH hydrates showed inverse trends. Compared to the methane + 2, 2-dimethylbutane hydrate sample, the length of the a-axis direction of the methane + methyl cyclohexane hydrate sample was slightly smaller, whereas the length of the c-axis direction was slightly longer. The crystal a-axis length of the sH hydrate sample formed with nitrogen molecules was slightly longer, whereas the c-axis was shorter than that of the methane + 2, 2-dimethylbutane hydrate sample at the same temperature.     

叶丝在增温增湿与滚筒烘丝工序中香味组分变化分析

该文研究了制丝线增温增湿和滚筒烘丝工序加工对叶丝香味组分的影响,采用溶剂超声萃取前处理结合GC-MS法测定叶丝的香味组分,并对SIROX增温增湿工序和滚筒烘丝工序前后叶丝香味组分的相对含量进行了分析,比较了工序前后、工序间香味组分的变化趋势。结果显示:①经SIROX增温增湿工序加工后,乙酸、苯甲醇等18种组分相对含量减少,糠醇、2,4-二羟基-2,5-二甲基-3(2H)-呋喃-3-酮等6种组分相对含量增加;②经滚筒烘丝工序加工后,乙酸、麦芽酚等14种组分相对含量减少,糠醇、糠醛等6种组分相对含量增加;③经增温增湿及滚筒烘丝两工序后,乙酸、2,3-丁二醇等23种组分相对含量减少,糠醇、2,4-二羟基-2,5-二甲基-3(2H)-呋喃-3-酮等4种组分相对含量增加;④两工序间的温度、湿度剧烈变化,使叶丝内部组分发生了美拉德反应、降解反应、挥发等,香味组分经两个工序后发生了一系列显著变化。该研究对提升卷烟产品质量、优化工艺参数、开发高质量产品具有重要意义。