水凝胶体系交联过程织构变化的流变学研究

研究了由部分水解聚丙烯酰胺水溶液交联得到的用于三次采油的弱凝胶体系, 使用不同交联剂的水凝胶体系表现出不同的流变特性, 反映两种不同织态结构的弱凝胶, 一种为接近于均匀分形交联网的整体凝胶, 另一种为有特征尺度的非均匀交联网的胶态分散凝胶. 上述结果得到了光学显微镜观测的证明. 强剪切和拉伸流的结果表明, 当凝胶体系中存在大量胶团时, 强剪切可以加强体系中网络结构的完整性, 使得流变性质加强, 不同于一般凝胶的减弱趋势.     

原子力显微镜对聚丙烯酰胺凝胶分形结构的研究

运用原子力显微镜对聚丙烯酰胺在羟配聚合Cr3 试剂作用下成胶后的结构进行了显微研究 .初步探讨了交联剂的浓度对凝胶结构的影响 ,同时就凝胶分形生长的机理做了分析 .给出了聚丙烯酰胺凝胶约略的分形维数值 .     

聚(N-异丙基丙烯酰胺)/聚丙烯酰胺无机/有机互穿网络水凝胶的制备及表征

通过紫外引发聚合方法制备了无机交联的聚(N-异丙基丙烯酰胺)(PNIPAAm)/有机交联的聚丙烯酰胺(PAAm)互穿网络(IPN)水凝胶.利用FTIR和SEM分别表征了凝胶的化学结构和内部形态;测定了凝胶在高温(50℃)时的退溶胀性能;利用DMA和DSC分别研究了凝胶的储能模量随温度的变化及热相转变行为.研究表明,该IPN凝胶具有温度敏感性;与未互穿的无机交联PNIPAAm凝胶相比,IPN凝胶具有多孔的网络结构和超快的响应速率,如10min内失去90%的水;其储能模量增加了3～4倍,相转变行为变弱,而最低临界溶解温度(LCST)提高了1.4℃.     

柠檬酸铝/聚丙烯酰胺胶态分散凝胶反应动力学和机理的研究

采用粘度法研究了柠檬酸铝（AlCit)与部分水解取丙烯酰胺（HPAM）胶态分散凝胶体系的反应动力学。结果表明，胶态分散凝胶体系的交联反应是一级反应。并推导出胶态分散凝胶体系的反应动力学方程。     

水解聚丙烯酰胺柠檬酸铝体系成胶行为与形态结构的研究

采用光学显微镜、扫描电镜及流变性能测试等手段 ,研究了部分水解聚丙烯酰胺 (HPAM )与柠檬酸铝 (AlCA)的成胶行为与形态结构 .结果表明 ,当AlCA浓度超过 10 0mg/L时 ,随HPAM浓度由低向高变化 ,HPAM AlCA交联体系可形成三种不同形态结构的凝胶 :分散凝胶 (由交联聚合物颗粒形成的分散体 )、两相(分散凝胶相与连续网状凝胶相 )共存凝胶和连续网状凝胶 .HPAM AlCA形成分散凝胶时 ,无明显的粘度升高现象 ,但体系中存在由HPAM大分子交联在一起的颗粒结构 .HPAM AlCA在形成连续网状凝胶时 ,体系复模量和复粘度大幅度提高 ,网状凝胶中含有粒状凝胶颗粒 .     

聚乙烯吡咯烷酮/黏土纳米复合水凝胶的制备及表征

通过原位聚合法, 以N-乙烯基吡咯烷酮(NVP)和黏土为原料制备了生物相容性有机-无机纳米复合水凝胶, 通过黏度、透明度、XRD及力学性能等研究了水凝胶体系的性质和微观结构. 结果显示, 单体NVP通过氢键作用吸附于黏土粒子周围, 从而有效阻止黏土颗粒的凝胶化; 通过对聚合过程透明度的变化、凝胶吸水性能以及拉伸力学性能分析发现, 其反应机理与丙烯酰胺类体系不同. 黏土颗粒间网链较短, 导致吸水率和断裂伸长率明显低于聚丙烯酰胺/黏土体系, 但模量和拉伸及压缩强度明显增加; XRD结果显示, 干凝胶中黏土颗粒呈有序排列, 随着黏土含量增加, 黏土粒子间距变小, 而在含水复合凝胶中, 黏土颗粒以剥离态均匀分散; 对于凝胶表面的细胞形态观察初步检验了此类纳米复合凝胶的细胞相容性, 未观察到显著不良影响.     

交联聚丙烯酰胺吸水凝胶的强度

高吸水材料是一类新型的功能高分子材料,已有广泛开发和应用。本文讨论了含大量无机填料膨润土的阴离子型交联聚丙烯酰胺(JSWAM)吸水凝胶的强度及其形态结构。 吸水材料JSWAM的制备:将填料搅拌分散于丙烯酰胺水溶液中,同时加入规定量的甲叉基双丙烯酰胺、过硫酸铵、碱,而后聚合并水解。将聚合物胶块造粒、烘干、粉碎。凝胶强度     

纳米二氧化钛增强聚丙烯酰胺/聚乙烯亚胺凝胶的制备及其性能

聚乙烯亚胺（PEI）是一种环境友好型交联剂，但与聚丙烯酰胺(PAM)形成的凝胶体系强度较弱，而纳米二氧化钛是一种非常有效的结构增强剂。制备了纳米二氧化钛增强的PAM/PEI凝胶，其结构经XRD和TG表征。结果表明：纳米二氧化钛对PAM/PEI凝胶有良好的增强作用。在90 ℃下，可使凝胶的成胶时间从7 h缩短至3 h，凝胶强度由F提高至H。     

部分水解聚丙烯酰胺/柠檬酸铝胶态分散凝胶体系的剪切稠化现象

一般认为 ,能够产生剪切稠化现象的体系为分散稳定的固 -液浓悬浮体 ,分散相 (固相 )体积分数 30 %～ 6 0 % [1～ 4] .最近 ,我们在研究固含量仅为 0 .0 3%的部分水解聚丙烯酰胺 (简称PHPA) /柠檬酸铝胶态分散凝胶体系流变性时 ,也发现了剪切稠化现象 .胶态分散凝胶( CDG)主要由交联剂在单个聚合物分子中通过内交联形成[5,6] ,形成条件是低聚合物质量分数 (一般为 0 .0 1 %～ 0 .1 2 % )和低交联剂 /聚合物质量比 (一般为 1∶ 2 0～ 1 0 0 ) .由于不能象常规凝胶一样形成三维网络结构 ,因而 CDG的分子结构状态介于常规聚合物凝胶和自由…     

羧甲基纤维素钠/聚(N-异丙基丙烯酰胺)纳米复合水凝胶的制备及结构性能表征

以无机粘土为交联剂制备了具有温度、pH双重敏感特性的羧甲基纤维素钠/聚(N-异丙基丙烯酰胺)/粘土半互穿网络纳米复合水凝胶(CMC/PNIPA/Clay semi-IPN),并通过红外和透射电镜对其结构和形态进行了表征。在酸性(pH=1.2)和20℃条件下,分别研究了温度和不同pH缓冲液对该凝胶溶胀度的影响,测定了复合水凝胶的力学性能。结果表明:水凝胶中的粘土被剥离成单片层,且均匀分散在凝胶网络中,起交联剂的作用,而CMC以线性大分子的形态存在;CMC/PNIPA/Clay具有良好的温度、pH双重敏感特性;凝胶的断裂伸长率>1 000%。     

Self‐Assembly Fractal Microstructures of HPAM/Chromium Acetate and HPAM/Phenolic Aldehyde Colloidal Dispersion Gel

Abstract

HPAM (partially hydrolyzed polyacrylamide)/chromium acetate and HPAM/phenolic aldehyde colloidal dispersion gels (CDGs) were investigated microscopically using atomic force microscope. The results show that the colloidal dispersion gels eventually form self‐assembly branch‐like fractal structures over a scanning range of micrometers. The fractal aggregates of single twigs formed by compact assembly of nanometer particles were observed over a smaller scanning range regardless of the concentration of HPAM and the crosslinking reagent. This indicated an HPAM‐dependence for the formation of the fractal structure and the crosslinking reagent independence of the geometrical morphology of the gel. Also, the results demonstrated that the elastic modulus (G′) of the fractal structure formed by the smaller (nanometer‐sized) colloidal particles was one order of magnitude higher than obtained for the micrometer‐sized particles. The elastic modulus (G′) and the dynamic stability of the gels increased with decreasing particle diameter.     

粘度法研究胶态分散凝胶交联过程

通过粘度测定方法,研究了部分水解聚丙烯酰胺（ＨＰＡＭ）／ 柠檬酸铝（ＡｌＣｉｔ） 交联过程中粘度变化的特性．聚合物浓度高的ＨＰＡＭ／ＡｌＣｉｔ 体系粘度随反应时间的延长而上升,其体系粘度最终高于相同聚合物浓度的ＨＰＡＭ 溶液粘度．聚合物浓度低的ＨＰＡＭ／ＡｌＣｉｔ 体系粘度随反应时间的延长而下降,其体系粘度低于相同聚合物浓度的ＨＰＡＭ 溶液粘度．ＨＰＡＭ／ＡｌＣｉｔ 交联体系的聚合物浓度低于临界浓度时,交联反应后形成稀胶态分散凝胶（ＴＣＤＧ） ．在实验条件下,临界浓度在１５０ ～３００ｍｇ／Ｌ 之间．当聚合物浓度于临界浓度和７００ｍｇ／Ｌ之间时,形成浓胶态分散凝胶（ＣＣＤＧ） ;当聚合物浓度高于７００ｍｇ／Ｌ 时,ＨＰＡＭ／ＡｌＣｉｔ 交联体系形成整体凝胶．     

部分水解聚丙烯酰胺浓度对结构形貌的影响

本文用原子力显微镜(AFM)研究了不同浓度的部分水解聚丙烯酰胺(HPAM)溶液在云母片上成膜后的结构形貌。浓度不同,AFM下观察到的结构形貌差别很大。50ppm和1000ppm的HPAM在云母片上成膜后不能形成规则的排列,而100ppm的HPAM在云母片上成膜后形成规则的排列,但不同位置处的排列不同,500ppm的HPAM在云母片上成膜后可形成树枝生长的分形结构。     

Narrow‐disperse,cross‐linked polymer microspheres by one‐step dispersion polymerization with a chain transfer agent

The increasing demand for monodispersed cross‐linked polymers in high‐quality applications requires continuous improvement in their preparation process. In this study, an appropriate amount of a chain transfer agent was added to a traditional cross‐linking system, resulting in the preparation by one‐step dispersion polymerization of cross‐linked polystyrene (PS) microspheres with a particle size of 3.867 μm and a diameter coefficient of variation of 0.011. The particles were characterized using scanning electron microscopy (SEM) and an Ubbelohde viscometer. The results show that the tertiary dodecyl mercaptan (TDDM) chain transfer during nucleation increases the oligomer concentration, promotes the aggregation of the oligomers, increases the primary particle size, and reduces the cross‐linking effect. This controls the volume of cross‐linked chains in the primary particles, thus avoiding the problem of poor dispersion of the polymer microspheres due to the introduction of divinylbenzene (DVB). This study produces a preparation method for cross‐linked microspheres.     

Friction coefficient and structural transition in a poly(acrylamide) gel

The friction coefficient between the polymer network of an opaque poly(acrylamide) gel and water is measured as a function of the mole fraction of cross linker. The friction coefficients of opaque gels are 4 to 5 orders of magnitude smaller than those of the transparent gels. This drastic decrease in friction occurs when the mole fraction of cross linker is 0.2. In opaque gels, the friction coefficient of gels and the mole fraction of cross linker are related by a power law. The network structure of the opaque gels used in the friction measurements is examined with a confocal laser scanning microscope. The opaque gel network consists of a fractal aggregate of colloidal particles. The radius of particles and the volume occupied by the particles depend on the mole fraction of cross linker. Both relationships are well described by the power laws. The power law of the friction coefficient is well explained in terms of the power laws of the structural parameters and the Stokes equation of the hydrodynamic friction for the spherical particle. It indicates that the friction of the opaque gel is determined simply by the structure of the polymer network.     

Molecular modification of slightly cross‐linked HDPE: comparison of electron beam irradiation and peroxide treatments

The aim of this study is to investigate the changes in molecular structure of high density polyethylene after slightly cross‐linking with either electron beam irradiation or chemically with the peroxide method, by examining both the gel and sol parts of the polymer. Melt flow index and dynamic mechanical thermal analysis tests verify the cross‐linking process after each treatment method. Differential scanning calorimetry and Fourier transformed infrared tests, together with rheology and viscometry tests, show that the cross‐linking process has resulted in not only cross‐linking long chains but also chain scission of short chains, thus broadening the molecular weight distribution. Because these created short chains act like lubricants, cross‐linked chains flow easier. Therefore, the polymer remains processable according to the melt flow index test, and this will make the usage of slightly cross‐linked high density polyethylene in injection molding processes possible. Copyright © 2016 John Wiley & Sons, Ltd.     

Study of a Double Cross-Linked HPAM Gel for in-Depth Profile Control

The concept of profile control is one of the most important strategies to enhance oil recovery in a high water production field, with polymer gels being used as a gelant matrix in various reservoirs around the globe. In an effort to reach a suitable profile control, previous attempts lead to an increase of polymer concentration, resulting in a poor injection and insufficient in-depth profile control. The work presented here introduces a novel gel system, using both key functional groups on HPAM to react with two types of cross-linking agents. Different formulations and the properties of this double cross-linked HPAM gel system have been studied. The experimental results indicate that the studied double cross-linked HPAM gel system exhibits a higher gel strength, an improved salt and shear resistance as well as an improved plugging effect compared to a single cross-linked HPAM gel system. Moreover, as a result of higher gel strength, the double cross-linked HPAM gel system also shows a longer gelation time, a parameter particularly useful for in-depth profile control. The gel microstructures have been evaluated, with the double cross-linked HPAM gel exhibiting a molecular structure that is more compact. The latter is a clear indication for the improved properties of the system as will be detailed in subsequent sections.     

低浓度部分水解聚丙烯酰胺/柠檬酸铝交联体系剪切稳定性研究

采用粘度法、核孔膜过滤和动态光散射(DLS)法,研究了高分子量低浓度的部分水解聚丙烯酰胺(HPAM)与柠檬酸铝(AlCit)反应所形成的交联体系的剪切稳定性和HPAM剪切降解后与AlCit反应所形成的体系的封堵性能及降解机理.研究结果表明,低浓度的HPAM与AlCit反应所形成的交联聚合物体系随剪切速率增加,其对1.2μm的核孔膜的封堵能力降低.HPAM稀溶液剪切降解后再与AlCit反应,低剪切速率对其封堵性能影响较小,而高剪切速率会使得其封堵性能大大降低.HPAM/AlCit交联体系和HPAM剪切降解后形成的交联体系的封堵性能下降的原因是HPAM/AlCit交联体系中交联聚合物线团(LPC)尺寸和HPAM中高分子线团的尺寸变小.