粘弹性阻尼材料中互穿聚合物网络技术的应用

阐述了粘弹性材料在振动波作用下的阻尼机理,指出声波法和模量法的统一性。综述了互穿聚合物网络技术要点,并解释相分离体系宽玻璃化转变区间的形成机理;介绍了互穿聚合和网络技术形成的新途径及梯度互穿聚合物网络技术要点。     

聚氨酯互穿聚合物网络阻尼性能研究进展

介绍了聚氨酯互穿聚合物网络（ＰＵ ＩＰＮ）作为阻尼材料的研究进展,分别讨论了聚氨酯（ＰＵ）／环氧树脂（ＥＰ）ＩＰＮ和ＰＵ／乙烯基聚合物ＩＰＮ的阻尼性,以及影响阻尼性能的因素,并比较了不同类型的ＰＵ ＩＰＮ的优缺点及新的可能的探讨方向。     

聚丙烯酸酯/聚苯乙烯乳胶互穿聚合物网络阻尼性能的研究

聚丙烯酸酯／聚苯乙烯乳胶互穿聚合物网络阻尼性能的研究刘瑞瑛王静媛韩庆国李玉玮汤心颐（吉林大学化学系长春１３００２３）关键词互穿聚合物网络，聚丙烯酸酯，聚苯乙烯，阻尼性能，乳胶自１９６９年Ｓｐｅｒｌｉｎｇ和Ｆｒｉｓｃｈ分别发展了ＭｉｌａｒＩＰＮ的...     

P(VA-co-DBM)/PVA乳胶IPN阻尼材料的合成及动态力学性能

用种子乳液聚合法合成了聚（醋酸乙烯酯－co-马来酸二丁酯）／聚醋酸乙烯酯乳胶互穿聚合物网络阻尼材料,动态力学谱结果表明,该阻尼材料在较宽的温域具有很高的阻尼因子。     

交联密度对聚硅氧烷/聚丙烯酸酯同步互穿聚合物网络阻尼材料性能的影响

阻尼性能;交联密度对聚硅氧烷/聚丙烯酸酯同步互穿聚合物网络阻尼材料性能的影响     

天然生漆/丙烯酸树脂IPN涂料的制备与性能

研究了直接由天然生漆(raw lacquer,RL)和多羟基丙烯酸树脂(multihydroxyl polyacrylate resin,MPAR)制备IPN(interpenetrating polymer network)涂料的方法,以及生漆的预聚合对涂料成膜的作用,并对共混物涂膜的物理机械性能、抗溶剂性能、抗紫外线性能等进行了测试表征。结果表明,天然生漆/丙烯酸树脂互穿网络共混能使RL与MPAR相互交联、缠结,其涂膜兼具有天然生漆和丙烯酸树脂的优良性能。     

聚氨酯/乙烯基酯树脂互穿聚合物网络阻尼性能的研究

采用二步法制备了聚氨酯／乙烯基酯树脂互穿聚合物网络,动态力学分析法研究了ＩＰＮ的阻尼性能。结果表明,聚氨酯／乙烯基酯树脂互穿聚合物网络出现宽温度阻尼范围。当聚氨酯／乙烯基酯树脂＝４０／６０时,材料的宽温度范围的阻尼性能最好。在体系中引入柔性链可改善低温阻尼性能,而引入刚性链则降低阻尼值、提高阻尼温度、阻尼温度范围变窄。在体系中引入大侧基能显著提高聚氨酯／乙烯基酯树脂互穿聚合物网络的阻尼性能,提高交     

环氧树脂增韧改性的研究进展

概述了近年来互穿聚合物网络（IPN）、刚性粒子增韧环氧树脂的研究现状,并展望了环氧树脂增韧改性研究的前景。     

胶乳型互穿聚合物网络(LIPN)阻尼材料

详细讨论了LIPN体系的阻尼原理。高分子材料在发生玻璃化转变时,大分子链段在玻璃化转变温度Tg附近的运动可以把振动能转化为热能耗散掉,借此可以达到减振、降噪的目的。这也是LIPN作为阻尼材料的依据。阻尼笥能是分子运动的结果,LIPN组分间的相容性及相互作用是影响阻尼性能的重要因素;采用不同的合成方法,将形成不同的微观形态,也会导致材料阻尼性能的差异。因此本文又深入探讨了各种合成参数及合成条件对体系性能的影响,并且指出了合成过程中特别需要注意的几个问题。     

PVA-PAMPS-PAA三元互穿网络型水凝胶的合成及其性能研究

以2-丙烯酰胺基-2-甲基丙磺酸(AMPS)、丙烯酸(AA)以及聚乙烯醇(PVA)为原料,制备了PVA-PAMPS-PAA三元互穿网络型(T-IPN)水凝胶.红外分析表明,PVA与PAA以及PAMPS之间形成了较强的氢键,使得PVA分子上的C—O伸缩震动吸收峰移向了低波数处.X射线衍射以及电镜分析表明,当PVA用量较低时,PVA能均匀的穿插于凝胶网络中,形成完善的互穿网络结构,当PVA用量过高时,部分的PVA结晶而使得凝胶出现相分离.研究了该三元互穿网络型水凝胶的溶胀性能,结果表明,该水凝胶的平衡溶胀比在200至340之间,并且随着AA以及AMPS用量的增加,凝胶的溶胀速率以及平衡溶胀比均升高.该三元互穿网络型水凝胶在酸性溶液中和在碱性溶液中表现出截然不同的消溶胀性能;并且随着溶液pH的升高,凝胶在pH=9.0附近出现体积突变,表现出pH敏感性.通过研究T-IPN水凝胶的抗压缩性能发现,利用线型高分子、柔性高分子网络以及刚性高分子网络制备的三元互穿网络型水凝胶能在高溶胀比下保持较高的强度.溶胀比为180的T-IPN水凝胶,其最大抗压缩强度可达12.1 MPa.进一步研究发现,凝胶的组成以及溶胀比均对凝胶的抗压缩强度和压缩应变均存在较大的影响.     

液晶聚合物网络研究进展

综述了液晶聚合物网络的新进展。包括液晶热固体、液晶弹性体和液晶互穿网络。介绍了各种网络的合成、主要性能和应用前景。     

Reactive compatibilization in phase separated interpenetrating polymer networks

The effects of compatibilizing additives (monomethacrylic ester of ethylene glycol (MEG) and oligo-urethane-dimethacrylate (OUDM)) on the kinetics of interpenetrating polymer network (IPN) formation based on cross-linked polyurethane and linear polystyrene and its influence on the microphase separation, viscoelastic and thermophysical properties have been investigated. It was established, that various amounts (3-10 mass%) of the additive MEG and 20 mass% OUDM introduced into the initial reaction system prevent microphase separation in the IPN. In the course of the reaction the system undergoes no phase separation up to the end of reaction, as follows from the light scattering data. The viscoelastic properties of modified IPN are changed in such a way that instead of two relaxation maxima characteristic of phase-separated system, only one relaxation maximum is observed, what is result of the formation of compatible IPN system. The position of this relaxation transition depends on the system composition and on the reaction conditions.     

Synthesis and Characterization of a Hydrophilic/Hydrophobic IPN Composed of Poly（vinyl alcohol） and Polystyrene

A hydrophilic/hydrophobic interpenetrating polymer network （IPN） of poly （vinyl alcohol） / polystyrene was prepared by conversion of the IPN of poly （vinyl acetate）/polystyrene. The hydrophilic/hydrophobic IPN was characterized by FT-IR and DSC, and the swelling ratios of the IPN in different solvents were measured.     

高强度PAMPS-PAAm互穿网络凝胶及其溶胀性能

通过考察不同单体浓度或离子强度下凝胶的力学性能和溶胀特性,对聚2-丙烯酰胺-2-甲基丙磺酸(PAMPS)与聚丙烯酰胺(PAAm)形成的互穿网络凝胶的高强度性能和作用机理进行了研究.结果表明:PAMPS-PAAm互穿网络凝胶的力学强度对c(AMPS)存在一个最佳值(1 mol/L),且随c(AAM)的增大而显著增大(0.5～4 mol/L).当c(AMPS)=1 mol/L、c(AAM)＝4 mol/L时,互穿网络凝胶的最大抗压强度达6.46 MPa;改变凝胶体系内水的离子强度,PAMPS-PAAm凝胶在0.25 mol/kg离子强度时的抗压强度与纯水状态下相比增加了29%.     

Surface Modification of Polydimethylsiloxane Substrates with Nonfouling Poly(Poly(ethylene glycol)methacrylate) Brushes

This contribution presents a new strategy to grow nonfouling poly (poly(ethylene glycol)methacrylate) (PPEGMA) brushes from polydimethylsiloxane (PDMS) substrates. The strategy presented here is based on the use of a sequence of vapor deposition/hydrolysis cycles to generate a surface-confined atom transfer radical polymerization (ATRP)-initiator functionalized interpenetrating polymer network (IPN) layer. In contrast to most other approaches that have been developed to graft thin polymer layers from PDMS substrates, this technique obviates the need for UV/ozone pretreatment of the PDMS substrate. It is shown that the surface-confined ATRP-initiator functionalized IPN layer can be used to grow PPEGMA brushes in a controlled fashion and that the resulting PPEGMA coating significantly reduces nonspecific protein adsorption as compared to unmodified PDMS substrates.     

Corrosion Protection of Tinplated Steel by Silica-Methacrylate Hybrid Coatings via Sol–Gel Process

In this work we present the development of two organic–inorganic hybrid coatings with interpenetrating network for corrosion protection of tinplated steel. The hybrid coatings were obtained from the hydrolytic condensation of tetraethoxysilane and 3-methacryloxypropyltrimethoxysilane, which has a free-radical polymerizable C?C double bond. The tri-functional monomers, triallyl isocyanurate and trimethylolpropane triacrylate (TMPTMA) with three C?C double bonds, were used to develop a highly cross-linked organic network attached to the inorganic moieties through covalent Si–C bonds, respectively. Both were characterized by Fourier transformed infrared spectroscopy and thermogravimetric analysis. The corrosion resistance performance was evaluated by potentiodynamic polarization, electrochemical impedance spectroscopy, and salt spray test. The results indicated that the Sol-TMPTMA hybrid coating exhibited excellent anti-corrosion ability by forming a physical barrier between tinplated steel substrate and its external environment.     

Novel interpenetrating smart polymer networks grafted onto polypropylene by gamma radiation for loading and delivery of vancomycin

Gamma radiation was used in every step of the synthesis of a sequential interpenetrating polymer network made of two “smart” polymers: poly(acrylic acid) (PAAc) and poly (N-isopropylacrylamide) (PNIPAAm), the latter grafted onto polypropylene (PP) films (PP-g-PNIPAAm) with the aim of developing medicated coatings for medical devices. Three steps were followed for obtaining net-PP-g-PNIPAAm-inter-net-PAAc: graft copolymerization of PNIPAAm onto PP films by gamma pre-irradiation oxidative method, cross-linking of PP-g-PNIPAAm by gamma irradiation in water to form the first network, with or without N,N′-methylenebis(acrylamide) (MBAAm), and finally the formation of the second network through the polymerization and cross-linking of AAc inside cross-linked PP-g-PNIPAAm by a low gamma radiation dose of 2.5 kGy. The films were characterized regarding the amount of grafted polymers and their composition (FTIR-ATR), thermal behavior (DSC), temperature- and pH-responsive swelling and contact angle (critical pH 6 and lower critical solution temperature ∼33 °C), and loading and release rate of vancomycin. Drug loading was driven by specific interactions between vancomycin and PAAc. Drug-loaded films sustained the delivery for several hours at pH 7.4 and provided release rate values adequate for killing bacteria attempting to adhere the surface of the films.