INFLUENCES OF WATER-SOLUBLE CATIONIC MONOMERS ON THE POLYMERIZATION RATE IN THE INVERSE EMULSION

This investigation deals with the free radical polymerization both of (2-methacryloyloxyethyl) trimethyl ammonium chloride (QACEMA) and of diallyldimethyl ammonium chloride (DADMAC) in inverse emulsion. The influences of some factors, such as the concentration of monomers, initiator and emulsifier are discussed. The polymerization rate equations of above two monomers can be written as follows: R(p) = k[M](1.21)[I](0.82)[E](0.57) (for QACEMA) R(p) = k'[M](1.34)[I](0.90)[E](0.62) (for DADMAC)

Investigation on the Inverse Emulsion Polymerization of Acrylic Acid

Polyacrylic acid particles in nano-scale were synthesized using an inverse (W/O) emulsion polymerization method. The particle size and size change of inverse micelles which solubilize a part of monomer solution was monitored by PCS (photon correlation spectroscopy) and the particles of polyacrylic acid were viewed in scanning electron microscope for the first time. It was concluded that the inverse micelles were primarily the polymerization reaction sites.

THE PREPARATION OF DOXORUBICIN-POLYVINYLPYRROLIDONE-NANOPARTICLES BY INVERSE EMULSION POLYMERIZATION

Doxorubicin-loaded nanoparticles, using doxorubicin （ADM） as model drug and vinylpyrrolidone as matrix, were prepared by inverse emulsion polymerization in the paper. The nanoparticles were characterized by telescope electron microscopy （TEM）, laser light scattering technique （LLS） and infrared spectrum （IR）. LLS test showed that the optimal prepared ADM-loaded nanoparticles had an average size 18.8nm and a narrow size distribution between 15nm and 32nm, which was consistent with the result obtained by TEM. And 1R results indicated that the nanoparticles consisted of ADM and polyvinylpyrrolidone （PVP）.

STUDY ON SYNTHESIS OF AMPHOTERIC POLYACRYLAMIDE IN INVERSE EMULSION

Amphoteric polyacrylamide was prepared first by the copolymerization of acrylamide with sodium acrylate and then through Mannich reaction.The copolymerization was carried out with a redox initiation system using the method of inverse emulsion polymerization.In this paper the reaction conditions and factors that affect emulsion stability were studied.Experiments show that a stable latex can be obtained under the following conditions:anionic degree is five percent,the ratio among acrylamide,formaldehyde and dimethylamine is 1∶1∶1.2,reaction temperature is 45 ℃,reaction time lasts four hours,and pH equals 5.0.The amphoteric copolymer has a higher molecular weight and cationic degree,so it is an ideal filler retention and drainage aid in paper making.

Preparation of Chitosan-g-PAM PS in H_2O/scCO_2 Inverse Emulsion

Chitosan （CS） was successfully modified in supercritical carbon dioxide （ scCOz ） by grafting method to enhance its water solubility. In this work, a three.arm star-like fluorinated polymer was synthesized by atom transfer radical polymerization （ ATRP ） method and applied as a surfactant in supereriticul carbon dioxide （scCO2 ）. Then 2-acrylamido-2-methyl propane sulfonie acid （AMPS） was grafted onto CS （CS-g-PAMPS） in H2O/scCO2 inverse emulsion. The effects of mass ratio of water and surfactants （Rw/s ） and pressure of scCO2 on the grafting reaction were investigated. The grafting rate, partide size, and dispersity in water of CS-g-PAMPS varied greatly as Rw/s and pressure of scCO2 changed. It could be found that the value of Rw/s at 12 and the pressure of scCO2 at 30 MPa were the optimum conditions for the grafting reaction. CS-g-PAMPS prepared in this reaction system has higher grafting rate, smaller particle sizes, and better dispersity in water than those prepared via conventional methods.

适用于LAS系统的全液体隔离液体系

固井施工过程中,在注入水泥浆前,需要先泵入一定量的隔离液,在海洋固井现场施工作业过程中,隔离液配制一般需要繁重的人工劳作,劳动强度大,作业效率低,加量不准确。为解决上述问题,用液体添加剂代替固体添加剂,通过LAS材料添加系统将材料混配作业,从传统的重体力劳动转化为智能化操作,降低作业强度,提高固井作业效率与降低人员成本。通过反相乳液聚合制备了一种液体隔离剂C-S70L,以它为主剂,构建了一套适用于液体加料系统(LAS)的隔离液体系。该体系推荐使用温度为20~120℃,适用密度为1.30~1.70 g/cm^(3);具有良好的悬浮稳定性(热滚后无沉降)、流变可调、失水可控以及相容性好的特点。

负载花色苷的抗酸性羧甲基壳聚糖凝胶微球的缓释研究

为拓宽壳聚糖基水凝胶的应用范围,构筑可食用的花色苷(ACNs)递送体系,采用反相乳液法,以玉米油为连续相,水杨醛(SA)为交联剂,制备了具有抗酸性能的载ACNs羧甲基壳聚糖(CMCS)凝胶微球(ACNs/CMCS-SA),表征了其结构和形貌,研究了其稳定性、溶胀性能和缓释性能。结果表明,ACNs/CMCSSA具有微米级粒径,表面光滑呈圆形;ACNs/CMCS-SA在酸性条件下稳定性良好,溶胀和缓释过程展现pH响应性;ACNs的释放行为符合Weibull模型,pH7和9时为扩散和骨架溶蚀复合释放机制控制,pH3和5时为菲克扩散和Case Ⅱ transport(0级-溶胀依赖性释放)联合释放机制控制。ACNs/CMCS-SA制备方法简单,过程绿色;对ACNs展现良好的胃酸保护和肠道释放性能,为环境友好型药物包封材料的开发和ACNs的应用提供了理论和实践参考。

新型低界面张力纳米微球调驱剂的合成与性能研究

聚丙烯酰胺纳米微球调驱剂作为一种新型的纳米驱油材料,在油田提高采收率方面取得了广泛应用。但是,目前使用的聚丙烯酰胺纳米微球功能主要以封堵为主,存在单体固含量低、水溶液吸水膨胀速度过快、驱油和降低表界面张力功能较差等问题。利用反相乳液聚合法,以白油为油相,2-丙烯酰胺-2-甲基丙磺酸(AMPS)、丙烯酰胺(AM)混合单体为水相,油酸/双子聚醚/OP-10混合表面活性剂为乳化剂,根据三元相图确定油相/乳化剂/水相三相的最佳配比(质量分数)为33.93%/24.87%/41.2%,以甲叉双丙烯酰胺(MBA)作为交联剂,在35℃利用氧化-还原剂聚合获得了既具有封堵功能,又具有超低表界面张力、高洗油效率的新型纳米微球调驱剂。工艺优化实验确定最佳的合成条件为单体配比m(AM)∶m(AMPS)为8∶1,交联剂质量分数为0.1%,氧化-还原剂质量分数为0.3%,搅拌速度为450 r/min。对聚合物纳米微球进行表征和性能评价,结果表明,其固含量为20.1%,粒径为54 nm,纳米微球封堵率可达95.1%,用其0.2%的水溶液测得界面张力为0.332 mN/m,洗油效率高达89.13%,为实施油田调驱提供了一种新材料。

高分子化学实验“反相乳液法制备聚丙烯酰胺微球”的设计

实验教学作为理论教学的延伸与拓展,对强化学生理论知识点、提升实验实践能力具有重大促进作用。为满足人才培养的最新要求,现对高分子化学实验内容进行优化,设计“反相乳液法制备聚丙烯酰胺微球”实验项目。实验过程通过改变单体浓度、引发剂加量等多个实验条件,引导学生思考不同实验条件对产物粒径的影响,加深学生对反相乳液聚合机理的理解。通过该实验,学生还能够掌握使用激光散射系统测定产物粒径的方法。

海上油田开发用抗温抗盐乳液聚合物研制与性能评价

为满足海上油田开发对聚合物溶解速度、抗温和抗盐性能的要求,使用自制的高效聚合物乳化剂和热稳定剂,采用低温复合引发体系多段引发,制备了超高相对分子质量的速溶抗温抗盐型乳液聚合物,分析了制备工艺,助溶剂、功能单体和热稳定剂加量对聚合物性能的影响。结果表明,通过工艺优化可制备得到相对分子质量2200万~2400万的聚合物,尿素和硫酸钠可显著提高超高相对分子质量抗温抗盐乳液聚合物的溶解速度;聚合时添加N,N-二甲基丙烯酰胺、自制热稳定剂和2-丙烯酰胺-2-甲基丙磺酸钠,可显著提高聚合物的抗温抗盐性能。采用电镜、激光粒度仪、GPC和TGA等方法,评价了超高相对分子质量抗温抗盐型乳液聚合物的结构及性能,结果表明,制备的聚合物乳胶粒粒径分布均匀、相对分子质量分布窄和耐温性能好,在矿化度35000 mg/L、温度75℃条件下,乳液聚合物30 d的黏度保留率大于90%。研究表明,超高相对分子质量抗温抗盐型乳液聚合物具有速溶、相对分子质量高和抗温抗盐性能好的特点,可以用于海上油田驱油开发。

石蜡Pickering乳液及其微胶囊相变非织造材料的制备与性能

Pickering乳液固含量和储存稳定性等性能显著优于传统乳液,但是,其乳化剂品种仍然稀缺,以苯乙烯(St)、甲基丙烯酰氧乙基三甲基氯化铵(DMC)为主要单体,二乙烯基苯(DVB)为交联剂,乙醇为助溶剂,用无皂乳液聚合法制备了阳离子型共聚物颗粒(P(St-co-DMC)),并将其作为乳化剂制备了石蜡Pickering乳液;并将石蜡乳液浸渍粘胶水刺非织造布制备石蜡微胶囊相变材料(Vis-PCM)。借助红外光谱仪、扫描电子显微镜、热重/差热联用仪、差示扫描量热仪和接触角测量仪等对共聚物及相变材料微观结构与性能进行表征与测试。实验结果表明:随着DMC用量、引发剂用量和乙醇含量的增加,单体转化率先增大后减小,P(St-co-DMC)粒径和分散指数先减小后增大,其Zeta电位则先快速增大而后趋于恒定,而亲水性持续增强;所得石蜡Pickering乳液的油水体积比高达3∶1,储存稳定性超过3个月;Vis-PCM的相变潜热高达139.3 J/g,经过20次冷热循环处理后,Vis-PCM中的石蜡泄漏率仅0.6%。本文制备的Vis-PCM具有良好的储热与放热性能,在相变储能领域具有广阔的应用前景。

疏水改性微球的制备及其膨胀性能与应用研究

通过反相乳液聚合法制备了一种疏水改性P(AM-N)微球.采用傅里叶变换红外光谱(FTIR)、热重分析仪(TGA)、扫描电镜(SEM)、流变及岩心驱替实验对所合成微球的结构、形貌、性能以及封堵效果进行了表征与测试,并考察了溶胀时长、温度和不同盐溶液浓度对P(AM-N)微球性能的影响.测试结果表明,P(AM-N)微球的平均粒径为76.42 nm,溶胀5 d后P(AM-N)微球的膨胀率高达17.21倍;在70℃下,P(AM-N)微球老化2 d后溶胀率高达17.14倍,在20000 mg/L NaCl溶液和2000 mg/L CaCl_(2)溶液中分别溶胀3 d后膨胀率高达5.31倍和6.03倍,说明其具有较好的耐温性和抗盐性;在注入量为0.5%的条件下,P(AM-N)微球封堵率可达到97.98%,与P(AM)微球相比具有更好的封堵性且弹性增强.

反相乳液聚合法制备缔合型耐盐聚合物及其流变性能

以丙烯酰胺(AM)、2-丙烯酰胺-十二烷基磺酸钠(AMC_(12)S)、疏水单体29-(4-辛基苯氧基)-3,6,9,12,15,18,21,24,27-壬氧烷酮基甲基丙烯酸酯(GTE-10)为原料,通过反相乳液聚合法制备了一种缔合型耐盐聚合物p(AM/AMC_(12)S/GTE-10)。通过FTIR、~1HNMR、SEM、TEM及激光粒度分析仪对其结构和形貌进行了表征,并对其流变性能、触变性能和黏弹性进行了评价。结果表明,疏水单体GTE-10成功引入聚合物中,聚合完成后的乳液粒径分布集中且均一,盐(NaCl、CaCl_(2))的加入使p(AM/AMC_(12)S/GTE-10)分子聚集态更紧密,形成的空间网络结构更稳定。质量分数为0.7%的p(AM/AMC12S/GTE-10)聚合物水溶液在140℃时表现出较好的耐温性能;在120℃、170s^(–1)条件下剪切1 h,在质量浓度为20000 mg/L的NaCl和CaCl_(2)水溶液中分别配制质量分数0.7%的聚合物溶液,其表观黏度分别为64.8和54.1m Pa·s;聚合物具有较好的剪切恢复性能;盐水条件下储能模量大于损耗模量,金属离子与苯氧乙烯基发生络合反应,使分子间作用力增强,形成的空间结构更稳定且难被破坏,黏弹性更高。

水性聚氨酯胶黏剂固含量提高策略的研究探索

随着环保意识和法律法规的加强,水性聚氨酯(WPU)作为一种环境友好型的水性树脂得到了广泛的应用和研究。目前,WPU产品在胶黏剂领域的主要问题之一是固含量低,产品中过多的水分会带来生产效率以及黏接性能方面的问题。该文综述了近年来制备高固含量、低黏度WPU的方法:优化相反转过程、增大空间利用率、减少水合层、内外乳化法结合、超支化结构及复合改性以提高固含量。总结了不同因素对相反转过程的影响,并阐述了如何通过改变工艺和设备来优化相反转过程。针对乳液粒子堆积密度极限、水合层厚度以及黏度等固含量受限制的因素,阐述了相应的解决方案。提高固含量能解决WPU胶黏剂干燥慢、施胶量不够的问题,对优化WPU胶黏剂的制备和使用有重要的意义。

反相乳液聚合法制备抗盐型两性共聚物P(AM-AA-AMPS-DAC)乳液

本文以丙烯酰胺(AM)、丙烯酸(AA)、2-丙烯酰胺-2-甲基丙磺酸(AMPS)、丙烯酰氧乙基三甲基氯化铵(DAC)为单体,白油(W1-TB)为油相,Span-80和Tween-80为乳化剂,过硫酸铵(APS)为引发剂,采用反相乳液聚合法制备两性丙烯酰胺共聚物P(AM-AA-AMPS-DAC),重点探讨油水比、乳化剂用量、引发剂用量、单体用量以及p H值对共聚物表观黏度的影响。实验结果表明,当油水比为1∶1,乳化剂用量为3%(以体系总质量计,下同),引发剂用量为0.06%,单体用量为35%,初始引发温度为60℃,pH值为7时,制备的两性丙烯酰胺共聚物乳液在去离子水中的表观黏度值为150mPa·s,在矿化度为30000 mg/L盐水中的表观黏度值为60 mPa·s,其黏度保留率为40%,呈现出较好的抗盐性。

四元共聚抗高温耐盐粉体降失水剂的制备及性能研究

以2-丙烯酰胺-2-甲基丙磺酸(AMPS)、N,N-二甲基丙烯酰胺(DMAA)、马来酸酐(MA)和甲基丙烯磺酸钠(SMAS)等为原料,采用反相乳液聚合法并引入非离子型乳化剂异构十三醇聚氧乙烯醚和司班80合成了一种抗高温耐盐四元共聚物粉体降失水剂ADMS。利用FT-IR、NMR、TG和GPC对共聚物的结构和热稳定性进行表征,并对ADMS进行了性能评价。结果表明,4种功能单体均参与了反应,ADMS的重均分子质量达448198,耐温可达320℃;ADMS抗温能力良好,使用温度在30~200℃;200℃时,添加3%ADMS的淡水基水泥浆失水量为48 mL;ADMS抗盐能力良好,在半饱和盐水和饱和盐水基水泥浆中分别添加4%和5%的ADMS可控制失水量在50 mL以内;ADMS对水泥浆稠化时间、水泥石抗压强度等无不利影响。

钻井液用反相乳液聚合物增黏剂的合成及评价

以两性离子单体N-甲基二烯丙基丙磺酸、N,N-二甲基丙烯酰胺、N-乙烯基己内酰胺为聚合单体,以偶氮二异丁脒盐酸盐(AIBA)为引发剂,采用反相乳液聚合法制备了增黏剂乳液DVL-1,有效固相质量分数为33%。利用FTIR、^(1)H NMR、TG-DTA等方法对DVL-1进行了表征测试,并对产物的增黏性能、抗高温抗盐性能等进行了评价。结果表明:质量分数为1%的DVL-1水溶液表观黏度可达17.4 m Pa·s。180℃/16 h高温老化后,溶液黏度保持率高达52.9%。通过观察DVL-1在溶液中的空间立体形态及对Zeta电位的数据分析,探讨了聚合物起效机理,DVL-1的抗温性能主要归因于分子结构中稳定的主链及侧链刚性基团,两性离子结构降低了聚合物对高价盐离子的敏感性,抑制了侧链的持续卷曲,抗盐性能得到显著提升。

水性石油树脂乳液的制备及应用研究进展

综述了石油树脂乳液的机械乳化法和相反转乳化法两类制备方法。重点介绍了石油树脂乳液的应用领域和国内外市场上石油树脂乳液的牌号及其应用方向,指出改性石油树脂乳液的研究是其应用于水性胶黏剂和造纸施胶剂的关键方向。

Experimental investigation of the effects of various parameters on viscosity reduction of heavy crude by oil-water emulsion

The effects of water content, shear rate, temperature, and solid particle concentration on viscosity reduction （VR） caused by forming stable emulsions were investigated using Omani heavy crude oil. The viscosity of the crude oil was initially measured with respect to shear rates at different temperatures from 20 to 70℃. The crude oil exhibited a shear thinning behavior at all the temperatures. The strongest shear thinning was observed at 20℃. A non-ionic water soluble surfactant （Triton X-100） was used to form and stabilize crude oil emulsions. The emulsification process has significantly reduced the crude oil viscosity. The degree of VR was found to increase with an increase in water content and reach its maximum value at 50 % water content. The phase inversion from oil- oil emulsion occurred at 30 in-water emulsion to water-in- % water content. The results indicated that the VR was inversely proportional to temperature and concentration of silica nanoparticles. For water-in-oil emulsions, VR increased with shear rate and eventually reached a plateau at a shear rate of around 350 s^-1. This was attributed to the thinning behavior of the continuous phase. The VR of oil-in-water emulsions remained almost constant as the shear rate increased due to the Newtonian behavior of water, the continuous phase.

THE VISCOELASTIC EFFECT ON THE FORMATION OF MESO-GLOBULAR PHASE OF DILUTE HETEROPOLYMER SOLUTIONS

Linear homopolymer chains in poor solvent exist either as individual crumpled single chain globules or asmacroscopic precipitate, depending on whether the solution is in the one- or the two-phase region. However, linearheteropolymer chains in dilute solution might be able to form stable mesoglobules made up of a limited number of chains ifthe degree of amphiphilicity of the chain is sufficiently high and the experimental conditions are appropriate. The self-assembly of block copolymers in a selective solvent is typical of such examples. In practice, the formation of stablemesoglobules can be directly related to the formation of novel polymeric nanopaticles in solution. In this article, we willaddress the formaton of mesoglobular phase not only on the basis of thermodynamics, but also from a kinetic point of view,which leads to the discussion of how viscoelasticity can affect the phase behavior of heteropolymer chains in dilute solution.The formation and stabilization of several different kinds of novel polymeric nanopedicles will be used to illustrate ourdiscussion.