交联聚乙烯基吡咯烷酮的合成及其性能研究

以乙烯基吡咯烷酮（NVP）为单体，二乙烯基苯为交联剂，AIBN为引发剂，采用悬浮聚合法合成了性能稳定的交联聚乙烯基吡咯烷酮（PVPP），研究了聚合温度，引发剂用量，交联剂用量和反应气氛等因素对产率，溶胀性能和吸附性能的影响，并用红外光谱和扫描电镜等对产物的结构、性能和表面形貌进行了表征。     

阴离子交换树脂D-268脱色性能研究

作者通过对大量树脂的筛选，寻找到了性能优良的脱色树脂D-268，详细研究了D-268树脂的脱色性能和不同再生剂对树脂的再生性能。     

甲烷部分氧化制合成气：Ⅲ.镍系催化剂物性及与催化性能间的关联

使用ＴＰＲ和Ｈ２－ＴＰＤ技术对镍铝系催化剂的还原和氢脱附性能进行了研究，并与其催化性能相关联。结果发现，镍铝系催化剂的氢脱附能力与其催化性能之间有一定联系，脱附氢能力越强，催化剂的甲烷部分氧化反应性能就越好，但催化性能与还原性能无直接关联。     

净化高纯氯化钾水溶液中钙的几种螫合树脂的对比研究

本文对四种螯合树脂净化氯化钾溶液中钙的性能进行了对比研究，用静态法和动态法测定了树脂对钙的螯合性能，并且，为研究螯合树脂的综合性能提供了一种方便而直观的方法。     

净化高纯氯化钾水溶液中钙的几种螯合树脂的对比研究

本文对四种螯合树脂净化氯化钾溶液中钙的性能进行了对比研究，用静态法和动态法测定了树脂对钙的螯合性能，并且，为研究螯合树脂的性能提供了一种方便而直观的方法。     

电沉积氧化铈对烧结镍电极性能的影响

在烧结镍基体表面，预先电沉积一层氧化铈，通过电化浸渍得到镍电极，研究了预先电沉积氧化铈对烧结镍电极性能的影响。结果表明：与空白烧结镍电极相比，预先电沉积氧化铈（＋4），改善了烧结镍电极的大电流充放电性能和循环性能，增加了电极的可逆性，提高了电极的充电接受能力和活性物质利用率，减少了电极膨胀率，且当氧化铈的预先电沉积量为5％时，烧结镍电极的电极性能处于最佳。     

聚碳酸酯聚氨酯弹性体的模拟生物老化性能的研究

研究了聚碳酸酯聚氨酯的水解剂，氧化，钙化等生物老化性能，并与聚醚聚氨酯样品做了比较，结果表明，胺扩链样品具有较好的耐水解性能，聚碳酸酯氨酯的抗氧化性能优于聚醚聚氨酯，同了聚醚氨酯一样，聚碳酸酯聚氨酯同样受钙的影响，含水氯化钙对聚碳酸酯聚氨酯的相结构产生影响，并对弹性具有增强作用。     

有机-无机复合型聚合物电解质的研究进展

聚合物电解质是现在锂离子电池研究领域的热点，有机－无机复合型聚合物电解质（CSPE）是现在聚合物电解质的研究主流。在聚合物电解质中添加无机添末，特别是纳米材料，大大改善了聚合物电解质的机械性能、离子导电性能以及界面稳定性能。对CSPE性能进行了评价，对在CSPE中添加无机粉末性能改善机理作了概括和探讨，并对CSPE的前景作了展望。     

共聚酯PEIT-PEG结晶性能的研究

通过偏光显微镜、广角X衍射与FTIR三种测试手段对共聚酯PEIT-PEG的结晶性能进行了系统的研究，重点分析了间苯二甲酸(IPA)、聚乙二醇(PEG)分子量和含量对共聚酯结晶性的影响。研究表明，PEIT与PEG之间发生了共聚反应，IPA的引入使PET结晶性能下降，晶粒尺寸减少，结晶度降低。引入PEG后，当PEG分子量和含量较低时，共聚酯结晶性能提高；当PEG含量较高时，在PEG分子量不变的情况下，随着PEG含量的增加，结晶性能下降；若PEG重量含量相同，PEG分子量越高，结晶性能越好。     

环氧─聚氨酯阴极电泳涂料的研制

以聚酰胺改性的环氧树脂为主链，聚醚封端的异氰酸酯为交联剂，选择适当的催化剂和助溶剂，制备出了脱封温度较低，成膜时间较短，性能稳定的水溶性环氧一聚氨酯阴极电泳涂料。本文考察了反应温度，投料顺序，催化剂浓度对反应速度的影响；对影响电泳涂料性能和漆膜性能的因素进行了讨论。     

The dynamics of single chains within a model polymer melt

Discontinuous molecular dynamics simulations are performed on a system containing 32 hard chains of length 192 at a volume fraction of phi = 0.45 to explore the idea that localized entanglements have a significant effect on the dynamics of the individual chains within an entangled polymer melt. Anomalous behavior can still be observed when studying the dynamics of the individual chains, although increased time averaging causes the anomalous relaxation-memory-release behavior that was observed previously in the system to smooth out. First, the individual chain mean squared displacements and apparent diffusion coefficients are calculated, and a wide distribution of diffusive behavior is found. Although the apparent diffusion coefficient curve averaged over all chains displays the predicted long-time diffusive behavior, the curves for the individual chains differ both qualitatively and quantitatively. They display superdiffusive, diffusive, and subdiffusive behavior, with the largest percentage of chains exhibiting superdiffusive behavior and the smallest percentage exhibiting the predicted diffusive behavior. Next, the individual chain end-to-end vector autocorrelation functions and relaxation times are determined, and a wide distribution of stress relaxation behavior is found. The times when the end-to-end vector autocorrelation functions relax completely span almost an order of magnitude in reduced time. For some chains, the end-to-end vector autocorrelation function relaxes smoothly toward zero similar to the system average; however, for other chains the relaxation is slowed greatly, indicating the presence of additional entanglements. Almost half of the chains exhibit the anomalous behavior in the end-to-end vector autocorrelation function. Finally, the dynamic properties are displayed for a single chain exhibiting anomalous relaxation-memory-release behavior, supporting the idea that the relaxation-memory-release behavior is a single-chain property.     

The influence of hydrophobic counterions on micellar growth of ionic surfactants

This review covers the effects of hydrophobic counterions on the phase behavior of ionic surfactants and the properties of the phases. Mixing hydrophobic counterions with ionic surfactant micellar solutions may initiate the micellar growth and transform the micellar microstructure into different morphologies. This behavior may also be achieved by mixing ionic surfactants with hydrophilic counterions, although higher counterionic concentrations are then required. First, the role of hydrophilic and hydrophobic counterions in regards to micelle growth is discussed. Second, the effect of the hydrophobic counterion on the self-assembly of cationic and anionic surfactants and their viscoelastic behavior are presented. Third, the relationships between geometry, hydrophobicity and their consequences on micellar growth for different hydrophobic counterions are reviewed. Forth, the influence of hydrophobic counterion substituents (substitution pattern) on the phase behavior is discussed. Some results we previously obtained for different isomers of hydroxy naphthaoic acids and the cationic surfactant cetyltrimethylammonium hydroxide are included. With these systems the effect that the hydrophobic counterion microenvironment has on the phase behavior, rheological behavior and the micellar microstructure is discussed. The results from other research groups are also discussed.     

在复杂流体中的相平衡

复杂流体表现出与一般溶液不同的特性,它们常呈现更丰富和多变的性质和相行为.认识和了解复杂流体丰富多彩的相平衡知识,对于解决生产中存在的问题有重要意义.本文以复杂流体中存在的自组装结构、特殊相互作用及其独特的相行为目标,分别介绍脂质体溶液和盐湖卤水溶液中呈现的特殊相互作用、自组装体结构及其相平衡.从化学热力学的角度出发,探索在这些复杂流体中组分可能形成的自组装体,以及这些自组装体对复杂流体相行为的影响.     

Relations between dynamic mechanical properties and melting behavior of nylon 66 and poly(ethylene terephthalate)

Nylon 66 films exhibiting form I melting behavior show the γ mechanical relaxation at ?140°C. Samples which have form II melting behavior do not show this relaxation. The γ relaxation disappears when material having form I behavior is converted to material having form II behavior by annealing or by cold drawing. The form I and form II types of melting behavior are also found in poly(ethylene terephthalate); the interconversions and thermal behavior of the forms are analogous to the nylon 66 case. In poly(ethylene terephthalate), the β relaxation at ?40 to ?60°C is present only when form I melting behavior is found. Conversion to form II melting behavior by annealing or drawing (80°C) again causes the relaxation to disappear. No β relaxation was found in amorphous polymer. The γ dispersion in nylon 66 and the β dispersion in poly(ethylene terephthalate) can therefore be associated with the crystalline structure responsible for form I melting behavior. Form I melting behavior has been associated with foldedchain crystals based on previous work. It is therefore postulated that the γ dispersion in nylon 66 and the β dispersion in poly(ethylene terephthalate) are associated with motions in the chain folds. This assignment is not inconsistent with the change in the γ dispersion of nylon 66 with the number of backbone CH₂ units, since these will affect the fold structure.     

Assembly behavior of iron oxide-capped Janus particles in a magnetic field

Three types of iron oxide Janus particles are obtained by varying the deposition rate of iron in a 3:1 Ar/O(2) atmosphere during physical vapor deposition. Each type of iron oxide Janus particle shows a distinct assembly behavior when an external magnetic field is applied, i.e., formation of staggered chains, double chains, or no assembly. A detailed deposition rate diagram is obtained to identify the relationship between deposition rate and assembly behavior. The extent of iron oxidation is identified as the key parameter in determining the assembly behavior. In addition, the effects of particle volume fraction, thickness of the iron oxide cap, and assembly time on the final assembly behavior are studied. Cap thickness is shown not to influence the assembly behavior, while particle volume fraction and assembly time affect the chain growth rate and the chain length, but not the overall assembly behavior. The samples are characterized by optical, scanning electron, and atomic force microscopies.     

Role of molten fraction on the structural evolution in stretching and cooling of crosslinked low‐density polyethylene: Real‐time mechano‐optical measurements

We investigated the uniaxial deformation behavior of crosslinked low‐density polyethylene in partially and substantially molten states using a real‐time true stress–strain birefringence system. The stress–birefringence behavior exhibits a multiregime behavior during stretching and holding process. The details of this regime behavior are primarily governed by the degree of unmelted crystallinity as it has a dominant role in the long‐range structural connectivity. When the long‐range physical connectivity is present, a three‐regime nonlinear stress–optical behavior was observed. When the long‐range connectivity is substantially eliminated at higher temperatures, the regime I behavior disappears. Structural studies including cooling process reveal that the lower the proportion of molten material during stretching, the higher the concentration of fibrillar structure and the shorter are the lengths of the kebabs that exhibit twisted lamellae after solidification. © 2005 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 43: 1825–1841, 2005     

Corrosion-stable nickel- and cobalt-based alloys for dental applications

In a comparative study the in vitro corrosion behavior of a selection of nickel- and cobalt-based alloys for application in dentistry containing no noble metals was studied with slow scan cyclic voltammetry. The obtained breakthrough potentials, the repassivation behavior and further typical features of the cyclic voltamograms are correlated with the chemical composition as measured with electron beam microanalysis. Surface inhomogenities detected with the latter method are discussed with respect to the electrochemical behavior. For all alloys stabilities in terms of breakthrough potential superior to previously reported data for nickel-base alloys are found.     

Molecular dynamics simulation of benzene in graphite and amorphous carbon slit pores

It is well known that confining a liquid into a pore strongly alters the liquid behavior. Investigations of the effect of confinement are of great importance for many scientific and technological applications. Here, we present a study of the behavior of benzene confined in carbon slit pores. Two types of pores are considered–graphite and amorphous carbon ones. We show that the effect of different pore structure is of crucial importance for the benzene behavior. © 2013 Wiley Periodicals, Inc.     

Deformation behavior of thin,compliant layers under tensile loading conditions

In this article, a connection is made between the behavior of thin layers of Newtonian liquids under tensile loading conditions and the behavior of highly deformable elastic or viscoelastic solids, which are more commonly used as adhesives. The behavior of Newtonian liquids is understood in the most quantitative detail and serves as a starting point for understanding the origins of fingering and cavitation instabilities that appear when the tensile deformation rates applied to these layers are sufficiently large. Similar instabilities appear in solid systems and can be attributed to common features of the stress distribution for incompressible liquids and solids. A unifying treatment is presented that can be used to understand the overall deformation behavior and adhesive performance of a wide variety of solid and liquid systems that are typically applied as thin layers. © 2004 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 42: 4023–4043, 2004     

Study of thermal and dielectric behavior of low-density polyethylene composites reinforced with zinc oxide whisker

Different scanning calorimetry and dynamic mechanical analysis are used to study the thermal behavior of composites by melt-mixing low-density polyethylene (LDPE) matrix and zinc oxide whisker (ZnO_w) fillers. Micrographs of the composites illustrate that needle or wedge shaped ZnO_w are distributed uniformly in the LDPE matrix. Dielectric properties of the composites are measured in a frequency range of 1-10 MHZ. The results show that the addition of ZnO_w does not affect the melting behavior of LDPE, but has an important effect on the heat of fusion, dynamic mechanical behavior, and dielectric behavior of the composites. This revised version was published online in July 2006 with corrections to the Cover Date.