纳米SiO_2/含氟丙烯酸酯共聚物复合乳液的制备与性能及聚合动力学研究

采用原位聚合法制备纳米SiO2/含氟丙烯酸酯共聚物复合乳液,研究了其聚合反应动力学,并通过红外光谱(IR)、透射电子显微镜(TEM)、热失重(TGA)等方法表征所得产物的结构及形态、乳胶膜的耐热性能和表面性能.研究结果显示,聚合反应的表观活化能为83.15 kJ/mol,纳米SiO2/含氟丙烯酸酯共聚物复合粒子呈现出明显的核壳结构,纳米SiO2粒子的引入不仅改善了聚合物的耐热性能,也在一定程度上提高了乳胶膜的抗水性.对膜表面自由能的组成分析表明,与一般含氟乳胶膜的表面自由能的情况相反,该乳胶膜的表面能是由较大的极性部分和较小的色散部分组成.     

含氟聚氨酯-丙烯酸酯核壳乳液的制备及性能

以甲基丙烯酸羟乙酯封端的水性聚氨酯作为大分子单体,与甲基丙烯酸甲酯及甲基丙烯酸全氟烷基乙基酯在乳液中进行自由基共聚合,制备出具有核壳结构的水性含氟聚氨酯-丙烯酸酯乳液。通过激光粒度分析仪、FT-IR、DSC、TGA、接触角、力学等表征手段,对乳液及其乳胶膜的结构和性能进行了研究,还着重探讨了甲基丙烯酸全氟烷基乙基酯的含量对乳胶膜性能的影响,结果表明:所制得的材料具有预期结构,并且具有优异的表面性能和力学性能,氟单体的引入使乳胶膜的表面能大大降低,而力学性能明显提高。     

含氟丙烯酸酯共聚物表面性能的稳定化研究

为提高传统含氟丙烯酸酯乳胶膜表面性能的稳定性,以γ-(甲基丙烯酰氧基)丙基三甲氧基硅烷(MPS)作为可交联单体,采用细乳液聚合法合成了MPS改性的含氟丙烯酸酯共聚物,利用DLS、TEM、IR对聚合物进行表征,研究了MPS对合成乳液的稳定性、涂膜性能和膜表面接触角稳定性的影响。结果表明,细乳液聚合法适合用于对水敏感单体的聚合,合成的纯丙烯酸酯乳胶为球形结构,平均粒径为92 nm,而氟丙乳胶和含3%MPS的含硅氟丙乳胶形成了典型的核壳结构,平均粒径分别增大至107 nm和103 nm,含硅氟丙聚合物中存在Si-O-Si的交联结构。涂膜性能测试表明,MPS的引入增加了共聚物膜的硬度、耐溶剂性和耐水性。接触角测试表明,随MPS用量的增加,乳胶膜对水的初始接触角和动态接触角随时间的降低值均呈先增大后减小的趋势,共聚体系中加入适量MPS,通过含氟链段与MPS链段的协同作用,可显著提高涂膜表面性能的稳定性。     

含氟共聚乳液改善浸渍滤纸抗水抗油性的研究

用核/壳乳液聚合工艺,通过改变单体组成、设计乳胶粒子的形态结构和在乳胶粒子的壳层中引入含氟丙烯酸酯单体,制备具有核/壳结构的含氟丙烯酸酯的共聚乳液。并通过FTIR1、3C-NMR、TEM等手段对共聚乳液的化学结构以及乳胶粒子形态结构进行了表征。同时研究了含氟单体种类和用量、乳化剂种类以及单体加料方式对其聚乳液性能以及浸渍滤纸抗水/油性的影响。     

氟含量对含氟丙烯酸酯共混乳胶膜梯度结构和表面性能的影响

首先将制备出的平均粒径较小的含氟丙烯酸酯均聚物乳液与平均粒径较大的纯丙烯酸酯共聚物乳液按不同的比例( 1/9,2/8,3/7,4/6,5/5)共混,接着将各共混乳液在室温下(20℃)玻璃基材上干燥后,于110℃/210℃下热处理一段时间.运用接触角法,XPS、AFM、SEM-EDX等详细研究了共混乳胶膜中含氟组分含量对...     

含氟丙烯酸酯-苯乙烯共聚物的制备及其表面性能的研究

研究了聚合工艺、含氟丙烯酸酯类单体种类和用量、苯乙烯和自由基引发剂用量及硅烷偶联剂、催化剂等因素对含氟丙烯酸酯-乙烯共聚物表面性能的影响。结果表明：聚合工艺、含氟丙烯酸酯类单体种类和用量对共聚物表面的憎水性能有显著的影响;采用延时滴加含氟丙烯酸酯类单体可提高共聚物膜表面的憎水性;随含氟丙烯酸酯类单体侧链含氟烷基的链长和氟原子数及含氟单体用量的增加,共聚物水接触角增大,吸水率下降;共聚物薄膜的硬度则与含氟丙烯酸酯类单体中α-取代基、侧链含氟烷基的链长和用量、苯乙烯用量、引发剂浓度等相关;硅烷偶联剂和催化交联剂的加入可提高共聚物薄膜的强度。     

含氟聚氨酯-丙烯酸酯核壳乳液的制备及性能

以甲基丙烯酸羟乙酯封端的水性聚氨酯作为大分子单体,与甲基丙烯酸甲酯及甲基丙烯酸全氟烷基乙基酯在乳液中进行自由基共聚合,制得具有核壳结构的水性含氟聚氨酯-丙烯酸酯乳液。通过激光粒度分析、FT-IR、DSC、TGA、表面性能测试、力学性能测试等表征手段,对乳液及其乳胶膜的结构和性能进行了检测,另外,还着重探讨了甲基丙烯酸全氟烷基乙基酯的含量对乳胶膜性能的影响。结果表明:所制得的材料具有预期结构,并且表面能及吸水率低,力学性能优异。氟单体的引入使乳胶膜的表面能大大降低,而力学性能明显提高。     

含氟/硅丙烯酸酯乳液的合成进展

含氟丙烯酸酯聚合物具有良好的成膜性、光泽性、柔韧性、耐污性及耐腐蚀性,广泛应用于防腐耐候涂料。但其对基体的附着性差,对颜料、填料的润湿性差,不耐低温,加之含氟丙烯酸酯单体价格昂贵,大量使用受到限制。含氟/硅丙烯酸酯共聚物不仅兼备了含氟聚合物的诸多优良性能,而且能有效地提高与基体的附着力并降低聚合物成本。本文综述了氟/硅改性丙烯酸酯乳液常用单体;核壳型乳胶粒的结构及影响因素;氟/硅丙烯酸酯共聚物合成路线。     

核壳型含氟丙烯酸酯共聚物的合成及性能

采用饥饿态半连续种子乳液聚合方法, 在十二烷基硫酸钠(SDS)/辛基苯基聚氧乙烯醚(TX-10)复合乳化剂的作用下, 分别选用甲基丙烯酸三氟乙酯(TFEM)、甲基丙烯酸六氟正丁酯(HFBM)和甲基丙烯酸十二氟庚酯(DFHM)为含氟单体, 合成以丙烯酸正丁酯(BA)、甲基丙烯酸甲酯(MMA)和含氟单体为原料的核壳型结构含氟丙烯酸酯共聚物乳液. FTIR, 1H NMR, TEM和DSC分析结果显示, 获得了BA/MMA/含氟单体的共聚物乳液, 且乳液具有明显的核壳结构. DSC, TGA和SEM-EDX的分析显示, 核壳型结构的共聚物具有优异的热力学稳定性能和成膜性能; 长侧链或短侧链含氟单体对共聚物的热稳定性影响不明显, 但侧链较长的含氟单体所获得的聚合物在成膜过程中更易向表面迁移, 更能体现含氟聚合物的优点.     

含氟丙烯酸酯共聚物防粘剂的制备及其表面性能研究

以甲基异丁基甲酮为溶剂,偶氮二异丁腈为引发剂,全氟烷基乙基丙烯酸酯、丙烯酸十八酯、丙烯酸丁酯和甲基丙烯酸羟乙酯为原料,溶液聚合制得了均一的含氟丙烯酸酯共聚物防粘剂,并研究了其表面性能。结果表明:全氟烷基乙基丙烯酸酯单体的加入显著降低了共聚物的表面能,提高了共聚物膜的硬度、耐水、耐碱、耐溶剂等性能。当加入ω(氟单体)为30%时,表面能降低至14.7 mN/m,低于有机硅类防粘剂的表面能,含氟丙烯酸酯共聚物膜与压敏胶的的剥离力较低,剩余粘附率为93.2%,该共聚物膜的防粘等综合性能最好。     

Convenient synthesis of novel fluorinated polyurethane hybrid latexes and core-shell structures via emulsion polymerization process with self-emulsification of polyurethane

Novel fluorinated polyurethane hybrid latexes in the size range of 40–50 nm, fluoroalkyl acrylate as fluorinated monomers, with various fluorine content (F% = 9∼26 wt%) were successfully prepared via emulsion polymerization process without traditional emulsifier. The waterborne polyurethane, which was synthesized by using isophronediisocyanate, dimethylol propionic acid, polyethylene glycols, etc., served not only as copolymerizable macromonomer but also as polymeric high molecular weight emulsifier. The structures of polyurethane macromonomer and fluorinated polyurethane were characterized by Fourier transform infrared and H¹-NMR. Particle size, zeta potential, micromorphology of the latex par.ticles, and surface properties were investigated by dynamic light scattering, potential particle size analyzer, transmission electron microscopy, and contact angle measurement, respectively. Results illustrated that the advantage of this process is that the size of fluorinated polyurethane hybrid particle is less sensitive to the composition. Furthermore, it was showed that fluorinated polyurethane latex particles had core-shell structures, especially when the content of fluorine was 26.08 wt%. Moreover, there was an obvious migration of fluorinated groups to the surface during the formation of fluorinated polymer films, although fluorinated groups were covered by polyurethane in latex particles.     

Effect of different surfactants on colloidal and polymer properties of fluorinated acrylate latex

Fluorinated acrylate latex was successfully prepared by semi-continuous seeded emulsion polymerization of dodecafluoroheptyl methacrylate (DFMA) with butyl acrylate (BA), methyl methacrylate (MMA) initiated by potassium persulfate in the water. The resultant latexes and their films are characterized with Fourier transform infrared (FTIR) spectrometry, contact angle determinator, dynamic light scattering detector and surface tension determinator. Effect of different surfactants on colloidal and polymer properties of fluorinated acrylate latex was studied. Results show that the latex prepared with sodium dodecyl benzene sulfonate surfactant has the smallest particle size and contact angle but the moderate surface tension. The latex prepared with perfluorooctanesulfonic acid potassium surfactant has the smallest surface tension, moderate particle size but the biggest contact angle. The latex prepared with sodium 2-hydroxy-3-(methacryloyloxy) prop- ane-1-sulfonate surfactant has the biggest particle size and surface tension but moderate contact angle. In addition, the latex prepared with sodium 2-hydroxy-3-(methacryloyloxy) prop- ane-1-sulfonate has higher electrolyte stability.     

甲基丙烯酸全氟烷基代乙酯对天然橡胶乳液辐射改性研究

天然橡胶的性能与其组成中的C C双键有密切关系,由于C C双键的存在,为天然橡胶的改性提供了便利,大多数天然橡胶的改性方法,如氯化、氢氯化、环化、环氧化、接枝共聚等皆是建立在这一思路基础上的.White等[1]认为接枝天然橡胶的目的是提高天然橡胶的机械强度,赋予特殊的功能.作     

Emulsifier-free latex of fluorinated acrylate copolymer

Emulsifier-free latices of fluorinated acrylate copolymers were prepared by semicontinuous polymerization method, with perfluoroalkylethyl methacrylate (Zonyl TM) as a fluoromonomer. Ultrasonic at 40 kHz was adopted to help monomers disperse well in water. The relationships of polymerization conditions between the final conversion and polymerization stability were discussed in detail and the optimal polymerization condition was given. A fluorinated acrylate copolymer was finally obtained and its T_g was 54 °C. The average particle size of the latex was about 601 nm and the particle size distribution of the latex was narrow. The latex film exhibited a low surface free energy and good surface property. By using 6% Zonyl TM, the water contact angle of the film-air interface increased significantly and reached to 110.2°. Compared with the latex film of fluorine-free polyacrylate prepared under the similar polymerization condition, the fluorinated latex film had a better water-resistance and thermal stability.     

涂料用含氟聚合物乳液的研究和应用

含氟聚合物乳液因具有优异的表面特性、耐候性和环境友好性,可望在高耐候涂料和特殊性能涂料领域获得广东的应用。本文对含氟聚合物乳液的制血、性能、应用以及聚合物结构与性能间的关系进行了较详细的综述。     

含氟丙烯酸酯聚合物乳胶膜表面性质

采用XPS和界面张力仪分别测定了含氟丙烯酸酯聚合物乳胶膜表面的组成及水在其表面的动态接触角, 并用状态逼近方程模型计算了含氟聚合物乳胶膜的表面张力, 考察了温度对乳胶膜润湿性的影响. 结果表明, 含氟聚合物乳胶膜表层较深处的F 1s信号强度比近表面要弱, 乳胶膜表面张力随表面氟原子浓度增加在一定程度上呈现线性下降；含氟侧链(Rf)较长(碳原子数n＞6)的含氟聚合物, 其表面张力随Rf单元含量增加而下降的趋势显著高于Rf较短(n≤6)的含氟聚合物, 而水在含氟聚合物乳胶膜表面上的后退接触角θr随n增大出现急剧上升, n≥10 时, θr值几乎恒定不再随n增大而改变. 此外, 参与共聚的非氟丙烯酸酯酯基碳链较短时, 水在共聚物乳胶膜表面的θr随氟单元含量增加而增加的趋势更显著；温度超过40 ℃后, 水对聚合物乳胶膜的润湿性随温度上升略有改善.     

Synthesis and characterization of core–shell polyacrylate latex containing fluorine/silicone in the shell and the self-stratification film

A series of core–shell polyacrylate latexes with different fluorine/silicone monomer concentrations were prepared successfully by seeded emulsion polymerization. Dodecafluoroheptyl methacrylate and perfluorooctyl methacrylate with different fluorinated side chains were employed as fluorinated monomers, and γ-methacryloxypropyl triisopropoxidesilane (MAPTIPS) was used as a silicone-containing monomer as well as a self-cross-linking agent. The morphology and chemical structure of the latexes were characterized by Fourier transform infrared spectroscopy, transmission electron microscopy, and differential scanning calorimetry, and the self-stratification properties of the latex film were verified by X-ray photoelectron spectroscopy and static contact angle measurement. The results showed that the fluorine/silicone-containing polyacrylate latexes presented a uniformly spherical core–shell structure, and the latex films displayed a preferential distribution of fluorinated composition near the surface, which was more remarkable with the synergism effect between the fluorine monomer and MAPTIPS. Additionally, the hydrophobicity and oleophobicity of the latex films exhibited high relevance with the fluorine/silicone monomer concentrations as well as the fluorinated side-chain structure.     

Surface Properties of Fluorinated Acrylate Polymer Latex Films

The surface chemical compositions of fluorinated latex films and the dynamic contact angles of water were determined using X-ray photoelectron spectroscopy (XPS) and a Kruss interface tension measurement, respectively. The surface tensions of the films were calculated by the equation of state approach using the dynamic contact angles, and the effect of temperature on the wetting behavior of these films was investigated. It was shown that the F 1s signal intensity from the outermost surface of these fluorinated latex films was stronger than that from the interior surface of the film and that the surface tension showed a linear decrease with the increase of density of fluorine atoms on the latex film surface to a certain extent. The surface tension rapidly decreased with the increase of fluorinated lateral chains (Rf) content in the copolymer with longer Rf (carbon atom number n>6). The water receding contact angles (θr) on the latex films sharply decreased with the increase of n value, then leveled off nearly at n=10, and remained almost unchanged when n>10. In addition, θr increased more remarkably with the increase of F content in the poly (protonated acrylate- co-fluorinated acrylate) with short hydrocarbon side chains. The water wetting ability of the fluorinate latex films became slightly better only when temperature was more than 40°C.     

Latex film formation studied with the atomic force microscope: Influence of aging and annealing

The surface structure of latex dispersion films was examined with an atomic force microscope. All measurements were done in air on latex films having a minimum film formation temperature of 12°C and a glass transition temperature of 18°C. One aim of this study was to follow structural changes during film formation. Three minutes after spreading the film, its surface layer dried. Afterwards, the structure of the film did not change anymore. Only after 4 months could structural changes be observed: Though individual latex particles could be identified, the particles partly melted into one another.After annealing films at 50° or 60°C for 4 h, the latex particles partly melted into one another, but individual particles could still be identified. When annealing at or above 80°C, no individual latex particles were visible anymore. With increasing temperature the film roughness decreased from 3 nm without annealing to 0.8 nm at 100°C annealing temperature. In addition, islands of 2–4 nm thickness appeared on the film surface. These islands could be scraped off the film by increasing the force between tip and sample, indicating that they are composed of surfactant which was squeezed out of the film.