交联剂分子量对高吸水性树脂性能的影响

通过丙烯酰氯对聚乙二醇的封端反应合成了一系列分子量不同、结构类似的交联剂———聚乙二醇二丙烯酸酯 (PEGDA) ,并用于聚丙烯酸高吸水性树脂的制备 .运用FTIR对PEGDA进行了分析 .吸水性能实验结果表明 ,交联剂的分子量越大 ,则高吸水性树脂的吸水倍率越高 ,吸水速率越大 ,而相对吸水速率降低 .同时 ,PEGDA与常用的交联剂N ,N′ 亚甲基双丙烯酰胺 (MBA)相比 ,前者制备的高吸水性树脂的吸水倍率远高于后者 ;线型可溶性聚合物及残留单体的含量 ,前者也低于后者     

一些交联聚甲基丙烯酸甲酯材料的热裂—解色—谱质谱分析

本文对５个交联的聚甲基丙烯酸甲酯进行热裂解－色谱－质谱分析研究。裂解温度３７０℃，用ＯＶ－１石英毛细管柱分离，鉴定了交联聚甲基丙烯酸甲酯中少量的共聚单体和助交联剂：甲基丙烯酰胺、氰脲酸三烯丙酯、二甲基丙烯酸－缩二乙二醇酯和二甲基丙烯酸新戊二醇酯。     

微波法合成淀粉接枝丙烯酸盐类高吸水性树脂的研究

以N,N′-亚甲基双丙烯酰胺为交联剂、过硫酸铵为引发剂、在微波辐照下对淀粉接枝丙烯酸盐共聚进行了系统的研究,确定了最佳的反应条件,合成了粉末状的高吸水性树脂。并用FTIR和固体NMR等方法探讨了淀粉一丙烯酸盐接枝共聚物的结构特征。实验结果表明,利用微波技术合成淀粉一丙烯酸盐接枝共聚物可实现一次合成、干燥,简化合成工艺。淀粉与丙烯酸盐质量比为40／100左右时产物的接枝率最大,且吸水速率明显高于化学法合成的高吸水树脂。     

以两性高分子作反相悬浮稳定剂合成吸水剂

以聚（甲基丙烯酸十二酯－丙烯酸）两性共聚物为稳定剂，用反相悬浮聚合法合成了丙烯酸／丙烯酰胺／甲基丙烯酸羟乙酯三元共聚型超强吸水剂：吸蒸馏水1150mL.g^-1，吸0．9％NaCl溶液91mL.g^-1，研究了稳定剂结构及用量，单体组成，交联剂，链转移剂，中和程度等聚合条件及吸水剂性能的影响，实验表明甲基丙烯酸十二酯－丙烯酸共聚物是一种很好的反相悬浮稳定剂。     

氮丙啶交联剂的交联性能及固化动力学研究

合成了一种氯丙啶交联剂，并以丙烯酸树脂乳液为模型化合物对交联剂的交联性能及固化动力学进行了研究。结果表明：在丙烯酸树脂乳液中加入适量的氯丙啶交联剂，可使胶膜的力学性能及耐水碱性，耐溶剂性都得到很大的提高；但交联对玻璃化转变温度的影响较小。用程序升温DSC（差示扫描量热法）方法对固化反应动力学进行了研究，计算出固化反应的活化能。     

反相悬浮聚合AA-AM-HEMA三元共聚高吸水性树脂的研究

以丙烯酸（AA）、丙烯酰胺（AM）、丙烯酸羟乙酯（HEMA）为单体、N,N'-亚甲基双丙烯酰胺为交联剂、过硫酸铵/亚硫酸氢钠为氧化还原引发剂、Span80/Tween80为复合悬浮分散剂，采用反相悬浮聚合法合成了AA-AM-HEMA三元共聚高吸水性树脂。研究了单体用量、分散剂用量、油水比和粒径等对树脂性能的影响。用TGA和DSC对树脂的保水性和脱水动力学进行了研究，IR分析证实所合成的树脂为丙烯酸-丙烯酰胺-丙烯酸羟乙酯三元共聚物。     

丙烯酸酯三元共聚物负载硫铂络合物的合成及催化性能

丁二醇二丙烯酸酯、丙烯酸甲酯、丙烯酸β-氯乙酯或丙烯酸ω-氯己酯进行三元共聚,合成了两类4种带ω-氯侧基的交联型聚丙烯酸酯.它们以乙硫醇硫醚化,再与氯亚铂酸钾反应,得到4种交联型聚丙烯酸酯负载的硫铂络合物.这些络合物对癸烯-1、十二烯-1、苯基烯丙醚、苯乙烯与三乙氧基硅烷的硅氢加成反应具有良好的催化活性.讨论了温度、催化剂用量对催化性能的影响及催化剂的重复使用情况.     

耐水解高吸水树脂的合成与性能研究

采用2-丙烯酰胺基-2-甲基丙磺酸(AMPS)、丙烯酸(AA)、十二烷基苯磺酸钠(LAS)为主要原料,以二乙烯基苯(DVB)为交联剂制备出P(AMPS+AA)高吸水膨胀树脂,考察了AMPS与AA配比、中和度、交联剂种类与用量、LAS加量等合成工艺对吸水树脂性能的影响。研究结果表明,在丙烯酸系吸水树脂中引入AMPS结构单元,有利于提高树脂在盐水中的吸液能力,改善高吸水树脂的耐盐性;在以DVB为交联剂制备P(AMPS+AA)树脂时,LAS加量对树脂性能影响显著,当DVB用量为0.3%-0.45%、十二烷基苯磺酸钠用量0.15%-0.3%时,制备的P(AMPS+AA)树脂具有较高吸水能力,并且其稳定性比N,N’-亚甲基双丙烯酰胺(NMBA)交联的树脂优良,在高温碱性或酸性条件下显示出良好的耐水解性能。     

淀粉接枝丙烯酸/醋酸乙烯酯高吸水性树脂的制备

以过硫酸铵为引发剂,N,N-亚甲基双丙烯酰胺为交联剂,淀粉与丙烯酸/醋酸乙烯酯混合单体通过接枝共聚,制备了吸水及耐盐性能均较好的淀粉接枝丙烯酸/醋酸乙烯酯高吸水性树脂(CGAV)。最佳工艺条件为:淀粉10.0 g,m(混合单体)∶m(淀粉)=4∶1,w(引发剂)=0.3%,w(交联剂)=0.05%,于45℃反应2h~3 h。在最佳工艺条件下制得的CGAV吸去离子水率760 g.g-1,吸0.9%NaC l水溶液率68 g.g-1。     

PAAM高吸水树脂反相悬浮聚合

采用反相悬浮聚合法,通过部分中和丙烯酸与丙烯酰胺共聚制备了聚(丙烯酸-丙烯酰胺)(PAAM)高吸水树脂,讨论了聚合过程主要影响因素对其吸液性能的影响,并对其进行了FTIR、TGA测试,得到最佳的合成工艺配方:单体质量浓度为30%,中和度N为75%,丙烯酸与丙烯酰胺的摩尔比为7∶3,交联剂、引发剂和分散剂质量浓度分别为0.065%、0.7%和0.5%(相对于单体总质量),单体溶液的滴加速度为2～3mL/min,聚合温度和时间分别为70℃和1.5h。此时在蒸馏水、0.9%NaCl溶液%(wt)中最大吸水倍率分别为Qw=1300g/g、Qs=93g/g(Qw为蒸馏水中吸水倍率,Qs为0.9%NaCl溶液中的吸水倍率,下同),树脂在320℃之前都是比较稳定的,可以适应较高的使用温度。     

The effect of different impact modifiers in halogen-free flame retarded polycarbonate blends - I. Pyrolysis

In this first of two papers, the thermal decomposition of bisphenol A bis(diphenyl phosphate)-flame retarded polycarbonate (PC) blends with different impact modifiers was studied. The impact modifiers were an acrylonitrile-butadiene-styrene (ABS), a poly(n-butyl acrylate) (PBA) rubber with a poly(methyl methacrylate) (PMMA) shell and two silicone-acrylate rubbers consisting of PBA with different amounts of polydimethylsiloxane (PDMS) and different shells (PMMA and styrene-acrylonitrile, SAN). The focus of this work was to study the impact of the acrylate and silicon-acrylate rubbers with respect to pyrolysis and flame retardancy in comparison to common ABS. Thermogravimetry (TG) was performed to investigate the pyrolysis behaviour and reaction kinetics. TG in combination with FTIR identified the pyrolysis gases. Solid residues were investigated by FTIR-ATR. PC/ABS shows two-step decomposition, with PC decomposing independently from ABS at higher temperatures. Pure acrylate rubber destabilises PC due to interactions between the rubber and PC, which leads to earlier decomposition of PC. Using silicone-acrylate rubbers led to similar results as PC/ABS with respect to pyrolysis, reaction kinetics and analysis of the solid residue; hence the exchange of ABS for the silicone-acrylate rubbers is possible.     

Preparation and swelling properties of hydrolysis-resistant superabsorbent composite based on acrylic acid and sodium bentonite

Abstract

A novel hydrolysis-resistant superabsorbent composite was prepared via the solution polymerization based on acrylic acid (AA) and sodium bentonite (SBT) as monomers, tetraallylammonium bromine (TAAB) as crosslinker and ammonium persulfate (APS) as initiator. The mechanism of polymerization and the structure of the superabsorbent polymer (SAP) were studied by Fourier transform infrared spectroscopy (FTIR), X-ray diffraction (X-ray), and scanning electron microscopy (SEM). The reaction conditions such as different mass ratios of APS to AA, TAAB to AA, SBT to AA, neutralization degree of AA were optimized by orthogonal experiment, and the influence of each reaction condition on the capacity of water absorption at 150?°C was investigated via single-factor controlled experiment. The hydrolysis resistance and swelling kinetics of the SAP were studied in different solutions at 150?°C. Compared to traditional SAPs, the SAP synthesized with TAAB as crosslinker performed a more excellent hydrolysis resistance and water absorbency capacity at high temperatures. The water absorbency in distilled water or 0.1?mol L^?1 NaCl solution could reach 392.6 and 145.2?g g^?1at 150?°C, respectively. The SAP maintaining high swelling capacity in the pH range of 5–9 indicated its wide application values in the acidic or alkaline environment at high temperature. In addition, the SAP exhibited good reusability which could still retain about 73% of its initial water absorbency after reswelling six times at 150?°C.     

生物质废弃物的热解研究

生物质能是可再生能源,在生长过程中通过光合作用将碳和能量固定下来,利用生物质能CO2排放很少.为实现可持续能源生产和减少温室气体排放的目的,中国已于2006年1月开始实施《中华人民共和国可再生能源法》.     

Cyclization tendencies in the free radical polymerization of allyl acrylate derivatives: A computational study

In this study density functional theory (DFT) has been used to model the elementary steps and rationalize the free radical polymerization kinetics in allyl methacrylate (AMA), allyl 2‐cyanoacrylate (ACA) and methyl α‐[(allyloxy)methyl]acrylate. The models used in this study have revealed the fact that while methyl α‐[(allyloxy)methyl]acrylate, cyclopolymerizes via 5‐membered rings, AMA and ACA do not. The cyclization tendency of methyl α‐[(allyloxy)methyl]acrylate is attributed to the similar hybridization (sp³) of C3 and C5 favoring a quasi cyclic structure for the reactive rotamer. On the other hand, the presence of the cyano (CN) group in ACA facilitates the initiation step as compared to AMA. The chain transfer reaction does not seem to play a major role in the monomers of interest. This study highlights the usage of quantum chemistry in determining the cyclization tendencies of allyl acrylate derivatives in their free radical polymerization reactions. © 2011 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2011     

Studies on the Preparation of Stable and High Solid Content Emulsifier-Free Poly(MMA/BA/HEA) Latex with the Addition of AMPS and Characterization of the Obtained Copolymers

The 2-acrylamido -2-methylpropane sulfonic acid (AMPS) was used as a reactive comonomer for the methyl methacrylate (MMA), n-butyl acrylate (BA) and 2-hydroxyethyl acrylate (HEA) emulsifier-free emulsion copolymerization system to obtain latices of stable and high-solid content (50 wt%).The polymerization and storage process is very stable, and the emulsion could store at room temperature for more than six months with the addition of AMPS. Properties of the latices, such as stability, flow behavior, particles diameter and morphology were studied. In addition, physical properties of the obtained copolymers, such as water resistance, glass transition temperature (T_g) were also investigated. The final size of the latex particles is 200～300 nm in diameter. Compared with the copolymers that were prepared by surfactant emulsion polymerization water resistance is greatly improved.     

Photopolymerization of ternary thiol–ene/acrylate systems: Film and network properties

Photocurable, ternary‐component mixtures of a 1:1 molar multifunctional thiol–ene (trithiol and triallyl ether) blend and a 16‐functional acrylate based monomer have been photopolymerized, and the final film properties of the ternary crosslinked networks have been measured. The photopolymerization kinetics, morphology, and mechanical and physical properties of the films have been investigated with real‐time infrared, atomic force microscopy, and dynamic mechanical analysis. The photopolymerization process is a combination of acrylate homopolymerization and copolymerizations of thiol with allyl ether and acrylate functionalities. The tan δ peaks of the photopolymerized ternary systems are relatively narrow and tunable over a large temperature range. The morphology is characterized by a distinct phase‐separated nanostructure. The photocured thiol–ene/acrylate ternary systems can be made to exhibit good mechanical properties with enhanced energy absorption at room temperature by the appropriate selection of each component concentration. © 2007 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 45: 822–829, 2007.     

离子型共聚单体参与下的全氟丙烯酸酯无皂乳液共聚

离子型共聚单体参与下的全氟丙烯酸酯无皂乳液共聚;全氟烷基丙烯酸酯;无皂乳液;离子型共聚单体     

新型光固化环氧丙烯酸酯乳液的制备及其防腐性能研究

将环氧树脂和非离子型表面活性剂在一定温度下与丙烯酸反应合成出改性环氧丙烯酸酯树脂,再利用相反转乳化法制备得到光固化水性环氧乳液。对该反应的原料种类、反应条件、以及乳化工艺进行了优化研究,并对不同条件下得到的乳液进行了综合性能评价。着重考察了环氧树脂的种类以及光引发剂的种类对乳液粒径、清漆膜电化学防腐性能和耐盐雾性能的影响。结果表明:选取环氧树脂E20,光引发剂IRGACURE651,酯化反应温度为105℃,反应时间3h,乳化温度为25℃~30℃,搅拌速度为800r/min时,制得的乳液稳定性和漆膜性能(包括漆膜的力学性能、电化学防腐性能和耐盐雾性能)最佳。