应用电子显微镜测定丁苯吡胶乳和丁苯胶乳中胶乳粒子的平均粒径及粒径分布

丁苯吡胶乳和丁苯胶乳粒子的直径一般在1000(?)以下,这样微小的粒子,只有用电子显微镜才能看清它的形态和外貌。我们用电子显微镜观察丁苯吡胶乳及丁苯胶乳中的胶乳粒子,测定了胶乳粒子的平均粒径及粒径分布,为改进工艺、提高质量提供了资料。实验方法简介如下:     

丁苯胶乳的合成研究

以丁二烯和苯乙烯为单体、十二烷基硫醇为乳化剂,通过一步法合成了大粒径丁苯胶乳（SBR）.结果表明：乳化剂浓度、电解质浓度、固含量及单体加入方式是控制丁苯胶乳粒径大小的关键因素.通过适时补加乳化剂,选取适宜的电解质浓度、固含量及采用种子半连续加料方式有利于控制SBR粒径大小及分布.     

高效离子色谱分离柱填料的研究Ⅰ.阴离子交换树脂附聚微球

用粒径约0.5微米季胺化单分散交联聚苯乙烯胶乳与粒径为5～30微米磺化交联聚苯乙烯共聚物微球藉库伦力附聚得到了阴离子交换树脂微球,并对磺化深度,基球和胶乳的粒径比以及交联度等对阴离子交换树脂附聚微球色谱性能的影响进行了分析。用这种阴离子交换树脂附聚微球作为HPIC分离柱的填料;用自制的全多孔强阳离子交换树脂YSG-SO_3H为抑制柱填料,仅用10厘米长的分离柱在约27分钟内即可使F~-、Cl~-、No_2~-、HPO_4~-、Br~-、No_3~-、及SO_4~-等阴离子混合样按顺序全分离。     

不同尺寸（0.02—0.5μm）单分散聚苯乙烯乳液微球的制备

通过对苯乙烯乳液聚合微观动力学以及聚合过程中胶粒直径及其分布随时间变化的理论分析,并通过实验验证,比较了不同乳化剂种类、不同反应温度和不同单体用量条件下,产物胶乳的粒径分布,发现乳液聚合最终产物的粒径分布与成核期长短没有直接联系,而是取决于自由基进入胶粒的速率常数、稳态增长时间、胶粒中的平均自由基数目和胶粒的体积增长速率,胶乳单分散性随这些参量的增大而提高,从而解释了采用高温、高引发剂浓度以及长时间反应的条件对最终的胶粒尺寸分布的影响。本文还通过实验,找到了在20～500nm范围内控制粒径大小及粒径分布的方法。在20～100nm的范围内,用一步法乳液聚合,通过改变单体用量和乳化剂浓度,制备了一系列粒径的单分散聚苯乙烯胶乳;在100～500nm的范围内,运用种子乳液聚合,通过改变溶胀单体与种子胶乳的用量比,也制得了不同粒径的单分散聚苯乙烯胶乳。     

小粒径无皂阳离子PMMA胶乳粒子的制备与表征

采用溶剂热法,以AIBA为引发剂制得小粒径无皂阳离子PMMA胶乳纳米粒子。讨论了单体用量、引发剂用量和反应温度对胶乳粒径及乳液的粒径分布的影响;用^1H—NMR、TEM、FTIR、GPC、DTA等对聚合物进行了表征。结果表明：采用溶剂热法制得的无皂阳离子胶乳粒子粒径约为35nm,分散均匀;随着温度的升高,粒径逐渐减小;间同、无规、全同立构的相对含量分别为：55．3％、37．8％、6．9％;乳液的抗电解质稳定性好。     

功能高分子微球研究分散聚合法合成μ级聚苯乙烯微球

微米级聚苯乙烯微球广泛用于临床分析、生物医学、胶体研究等领城,亦可作为电子显微镜、光散射、沉降法等测定微小物体绝对长度的基准物、色谱柱填料等。用分散聚合法可以制得微米级单分散聚苯乙烯微球。本文通过对分散聚合条件和配方的研究,以水和醇为分散介质,分子量4000的聚乙二醇为稳定剂,过氧化苯甲酰为引发剂,合成了粒径为3至4μm的单分散聚苯乙烯微球。在分散聚合体系中,随着有机溶剂、单体、引发剂等用量的增加,胶乳粒径增大,粒径分布变宽。随着稳定剂、表面张力调节剂等用量的增加,胶乳粒径减小,粒径分布变窄。有机溶剂种类改变以及聚合反应温度变化,胶乳粒径也发生变化。     

顶空固相微萃取/气相色谱-质谱法检测胶乳中痕量甲苯的研究

合成胶乳是合成橡胶的一个重要组成部分,而合成胶乳中丁苯胶乳又占主导地位。丁苯胶乳是由丁二烯(B)和苯乙烯(S)经过乳液聚合得到的一种固体含量为30％～50％的水性乳液。由于这种水性乳液具有橡胶的韧性,所以作为增强剂被广泛应用于造纸、涂料、纺织、建筑和粘合剂等各个领域,与人们的生活环境密切相关。对于胶乳性能的研究和改进也吸引了研究者的注意。但是生产原料如苯乙烯中普遍含有甲苯,所以造成胶乳产品含有痕量的甲苯,对人们健康形成潜在的威胁。     

国内外天然浓缩胶乳品质差异性分析

由于橡胶树品系、种植气候与土壤、田间管理以及加工工艺等因素的影响导致国内外天然胶乳品质存在较大差异。本文选取国产海南宝岛牌、海南美联牌、茂名广垦-1、阳江广垦-2、进口泰国黄春发和泰国三棵树的浓缩胶乳,比较分析其分子量及其分布、橡胶粒子粒径、脂肪酸种类及含量、金属离子含量、Zeta电位、机械稳定性和挥发脂肪酸的差异。结果表明,国产胶乳相对分子质量较低,分子量分布较宽;进口胶乳平均粒径较大,粒径分布相对较窄;进口胶乳中不饱和脂肪酸及饱和脂肪酸含量均高于国产胶乳;黄春发牌胶乳的Ca2+、Mg2+、Zn2+浓度较低,Zeta电位绝对值较大,其胶乳稳定性较好;贮存过程中进口胶乳机械稳定度较高,胶乳挥发脂肪酸值较低。     

溶剂热法制备小粒径无皂均聚物纳米胶乳粒子

采用溶剂热法，用过硫酸钾引发苯乙烯均聚，制备出分散性好、粒径约30nm的无皂聚苯乙烯肢乳纳米粒子。讨论了引发剂的用量、助溶剂丙酮的含量、反应温度对粒子尺寸及其粒径分布的影响。实验结果表明：在一定范围内，温度改变，粒径变化较快；引发剂、丙酮和单体用量改变时，粒径变化较缓慢。     

热老化对丁苯胶乳体系机械稳定性的影响

研究了热老化处理对丁苯胶乳体系机械稳定性的影响.发现丁苯胶乳在高温老化过程中,胶粒容易团聚并形成凝胶,老化处理温度越高,凝胶出现时间越短,但是它的机械稳定性却随着老化处理时间的延长和老化处理温度的升高反而不断提高.为了阐明这种异常现象,测试了不同老化处理温度下胶乳的粒子尺寸、剪切作用下的凝胶比率、丁苯分子的结构与分子量分布,以及胶粒的力学强度随老化时间的变化规律,分析了影响机械稳定性的可能因素.结果表明,胶乳体系中丁苯分子在高温老化过程中发生了轻度的交联反应,导致胶乳干膜的300%定伸模量提高.进一步研究还发现,这个定伸模量与胶乳的机械稳定性具有对应关系,胶乳干膜的定伸模量越大,胶乳的机械稳定性越高,因此造成机械稳定性大幅上升的主要原因很可能是热老化交联后刚性较大的胶粒在高速剪切碰撞时难以及时融合.     

Ion-free latex films composed of fused polybutadiene and poly (vinyl pyrrolidone) particles as polymer electrolyte materials

Latex films composed of fused polybutadiene (PB) and poly (vinyl pyrrolidone) (PVP) particles that contain no ionic, hydroxyl, or amino groups were swelled with lithium salt solutions to yield new polymer electrolyte materials. The latex particle consists of a nonpolar, rubbery core that contains the PB component and a polar, glassy shell that contains the PVP component. The particle core-shell morphology was retained in the solid state, after the latex dispersion medium was removed and the films dried at high temperatures, due to the high T_g of the PVP shell. The films swelled when immersed in lithium salt solutions, and ionic conductivity of swollen films was greater than 10^-3 S/cm. Swelling and ionic conduction occurred only in the polar PVP component. Extraction of PVP occurred with extended swelling. © 1994 John Wiley & Sons, Inc.     

Synthesis of monodisperse, large scale and high solid content latexes of poly(n-butyl acrylate) by a one-step batch emulsion polymerization

Seeded emulsion polymerization and agglomerating method were well-known techniques for the production of polymeric latexes with large particle size and high solid content. Obtaining latexes with monodisperse and particle size above 300 nm scale, however, was time-consuming and difficult by means of these methods. Here, stable, monodisperse latexes with the controlled particle diameter (55–650 nm) and high solid content (60 wt%) were synthesized via one-step in batch emulsion polymerization. Experimental investigations show that the particle size increased with decreasing emulsifier concentrations and increasing monomer/water ratios or electrolyte concentrations. The latex particle coagulation was considered as the dominant particle formation and growth method, which could be proved by the evolutions of particle number as well as dimension against conversion. Latex particle coagulation occurred if the particle surface covered ratio dropped between the critical surface covered ratio (θ _crit?=?0.59) and the lowermost surface covered ratio (θ _low?=?0.38). In addition,θ _crit and θ _low were increased with electrolyte concentrations.     

Agglutination study of poly(allyl-alpha-D-glucopyranose/styrene) latex particles in the presence of Concanavalin A

Latex agglutination of the glucose-modified latex, which were synthesized by emulsion copolymerization of allyl-modified glucose and styrene monomers by specific binding interactions between Concanavalin A (Con A) and allyl-alpha-d-glucopyranose, were investigated. The surface of the glucose-modified latex was characterized by dye-partition method and the number of glucose was 1517 per latex particle. The average particle size and the polydispersity index of the latex were 78.3 and 1.005, respectively. Time-evolution adsorption behavior of various concentrations of the Con A and the consequent latex agglutination were studied by UV spectrophotometer at 540 nm and zeta-potential analyzer at the fixed latex concentration of 0.02 wt%. Specific binding between Con A and allyl-alpha-D-glucopyranose leaded the latex particles to coagulate by decreasing the electrostatic repulsion between the particles and mobility.     

Preaparation of cationic latexes of poly(styrene-CO-butyl acrylate) and their properties evolution in latex dilution

Cationic latexes were prepared through emulsion copolymerization of styrene(St) and butyl acrylate(BA) with a cationic surfactant,cetyl trimethyl ammonium bromide(CTAB).Latex properties,including particle size,size distribution,ζpotential,surface tension and monomer conversion,were determined for latexes prepared with different CTAB amounts. Evolution of these properties during emulsion polymerization was followed in order to understand the mechanism of the particles formation.Results showed that both particle size andζpotential were function of polymerization time and latex solids.Parallel emulsion polymerizations with cationic,anionic charged initiator and charge-free initiators were also carried out,the latex properties were determined at different polymerization time.All these results were attentively interpreted based on the mechanisms of emulsion polymerization,surfactant adsorption and latex particle stabilization.     

Morphology and grafting reactions in core/shell latexes

The particle morphology and percent grafting were investigated as a function of the crosslink density of the seed latex in two systems of core/shell latexes of polybutadiene/polymethyl methacrylate (PB/PMMA) and styrene–butadiene rubber/polymethyl methacrylate (SBR/PMMA) prepared by seeded emulsion polymerization at 50°C. The thin layer chromatography/flame ionization detection (TLC/FID) technique was used to characterize the grafting efficiency of the core/shell latexes. The percent grafting of the shell polymer was found to decrease with increasing the crosslink density of the core material. The particle morphology and precent grafting were also investigated as a function of composition and structure of the core material in four core/shell latex systems: polybutadiene/styrene–acrylonitrile copolymer (PB/SAN), (styrene-butadiene) random copolymer/styrene acrylonitrile copolymer (S:B/SAN), polystyrene : polybutadiene/styrene-acrylonitrile copolymer (PS:PB/SAN) and Kraton/styrene-acrylonitrile copolymer (Kraton/SAN), which were prepared by direct emulsification for the seed followed by emulsion polymerization at 70°C for the shell polymer. Grafting and crosslinking of the core material were found to be competitive reactions depending on the microstructure of the seed latex.     

Ion-Free latex films as dual-phase electrolytes: Styrene–butadiene rubber and nitrile–butadiene rubber synthesized by emulsion polymerization with poly-(vinyl pyrrolidone) stabilizer

Ion-free latices of styrene-butadiene rubber (SBR) and nitrile-butadiene rubber (NBR) were synthesized by emulsion polymerization with use of poly (vinyl pyrrolidone) (PVP) stabilizer. The goal was to prepare ion-free latex films, possessing dual-phase latex particle morphology, and swell the films with liquid electrolyte to yield dual-phase polymer electrolytes (DPE). SBR/PVP latex was prepared readily, but NBR/PVP latex was sensitive to coagulation. Differential scanning calorimetric (DSC) and scanning electron microscopic (SEM) analyses of latex films provided morphological evidence concerning particle structure and phase separation. Blends of NBR/PVP and PB/PVP latices (PB = polybutadiene) were also investigated, but particle structure was not present in the blended latex film, even though particle structure was present in the individual NBR/PVP and PB/PVP latex films. After extensive swelling of SBR/PVP latex films, PVP was extracted from the films, and ionic conductivities greater than 10^?3 S/cm were achieved. © 1994-John Wiley & Sons, Inc.     

Preparation of Impact and Weather Resistant Copolymer

Synthesis method of the resin is that crosslinked polybutyl acrylate latex is used as base latex. Styrene (St) and acrylonitrile (AN) are grafted onto polybutyl acrylate latex particle and turn into core-shell copolymer. The resin is a good resin's impact modifier. There are study of influence regularity about additive emulsifier, initiator, monomer concentration, the ratio of St to AN, chain transfer to graft polymerization. A kind of core-shell resin used as impact modifier is obtained. (A) Preparation of Crosslinked Butyl Acrylate Rubber Latex     

Synthesis of ion-free latex particles composed of polybutadiene and poly (vinyl pyrrolidone) as polymer electrolyte materials

The synthesis of polybutadiene (PB) by emulsion polymerization with use of poly (vinyl pyrrolidone) (PVP) stabilizer was investigated. The goal was to prepare flexible latex films that clearly retain particle morphology in the solid state after heat treatment and contain no ionic, hydroxyl, or (primary, secondary) amino groups. The latex particle core composed of PB was nonpolar and rubbery, while the particle shell composed of PVP was polar and glassy. Average particle diameter was measured by the dynamic light scattering technique, and particles were imaged by scanning and transmission electron microscopic analyses. Dialysis of the latices resulted in successful exchange of the dispersion medium without precipitation. © 1994 John Wiley & Sons, Inc.     

Polymerization in nonuniform latex particles. III. Kinetics of grafting in emulsion polymerization

The concept of nonuniform distribution of free radicals in polymerizing latex particles has been incorporated into the development of a kinetic model for grafting reactions. This theory permits prediction of grafting efficiency as a function of reaction conditions. It can also be used for evaluation of rate constants for grafting reactions. Experimental data for emulsion polymerization of styrene in the presence of polybutadiene seed latex have been used to assess the proposed grafting theory. The predominant grafting reaction appears to be the attack of growing polystyrene chains on the allyl hydrogen atoms of polybutadiene. The results further reinforce the hypothesis that the entering oligomeric free radicals do not distribute uniformly within the particle volume.     

Polybutadiene latex particle size distribution analysis utilizing a disk centrifuge

Polybutadiene latexes made in emulsifier-free emulsion polymerization with diameters ranging from 50 to 300 nm of both unimodal and bimodal particles size distributions were analyzed by the line-start (LIST) method in a Brookhaven Disk Centrifuge Photosedimentometer (DCP). A special spin fluid was designed to be able to sediment polybutadiene since the density of the polymer is 0.89 gcm^–3 and is thus less dense than its suspending medium. Density and viscosity gradients were created simply by adding five different mixtures of ethanol, water, and emulsifier in density sequence to the spinning disk. Coagulation problems caused by diluting polybutadiene latices with ethanol were overcome by using nonionic Triton X-100 surfactant. Good agreement in the average particle size and distribution as well as polydispersity between transmission electron microscope and disk centrifuge data was accomplished. The analysis time for polybutadiene latex particle sizing thus was reduced from several days to approximately 1 h.