可交联聚醚醚酮酮交替共聚物的合成与热交联研究

聚芳醚酮类特种工程塑料以其优异的机械性能、热稳定性、耐溶剂、耐辐照等特性在运输、航空航天、军事、电子、信息、核能等领域得到了广泛应用[1].聚醚醚酮的玻璃化转变温度(Tg)和熔点(Tm)分别为416和607 K,其长期使用温度为513 K,而其热分解温度在800 K以上,是热稳定性较好的聚合物之一.为了满足一些特殊需求,人们通过在聚芳醚酮的主链中引入刚性结构链,提高其主链的刚性程度,从而提高其T g和Tm,进而提高其使用温度[2～4].文献[5]报道的新型聚芳醚酮的T g和T m最高可达482和742 K,采用常规方法进行加工难度较大.为了在不提高加工温度的前提下提高聚芳醚酮类材料的使用温度,我们已成功地在聚醚醚酮的主链中引入可交联的硫醚结构,得到使用温度更高的可控交联聚醚醚酮材料,其可利用热塑性材料的加工方法进行加工,加工温度与聚醚醚酮相同,交联后的材料具有热固性材料的使用特性[6,7].为了拓宽可交联聚芳醚酮材料的种类,本文合成了一种类新型的可交联型聚醚醚酮酮材料,并对其热交联性能进行了研究.     

刚性链嵌段共聚物的研究(I)——聚醚醚酮-聚醚砜嵌段共聚物结构与性能

本文以聚醚醚酮(PEEK)和聚醚砜(PES)齐聚物为原料,通过溶液缩聚法制备PEEK-PES嵌段共聚物,并用DSC、TGA、WAXD和动态粘弹谱等手段对其相容性、结晶行为、动态力学性能和热性能进行了研究.结果表明,嵌段共聚物在PEEK链段(?)_n=1×10~4,PES链段(?_n)=3500～250(PES含量为25.0％～2.9％)组成范围内不产生微相分离,保持了结晶性能,其玻璃化转变温度比纯PEEK提高将近20℃,并具有较好的高温力学性能.     

低熔体黏度聚醚醚酮的合成与性能

<正>高性能聚合物及其复合材料因优异的热性能和机械性能备受关注[1~4].高性能聚合物分子链的芳香性结构使其具有优异的性能,但分子链的刚性结构导致热塑性高性能聚合物具有很高的熔体黏度,限制了其应用.聚醚醚酮连续纤维增强复合材料因熔体黏度高而难以预浸[5~8].为了降低聚醚醚酮的熔体黏度,人们进行了大量的实验探索.     

新型侧链液晶M5MPP/MMEANB高聚物的合成与表征

以４,４‘-二差基联苯,４-硝基苯胺,二溴乙醇为原料合成了单体甲基丙烯酸[5-(4‘-甲基联苯-４-４氧基)戊基]酯(Ｍ５ＭＰＰ),４-硝基偶氮苯基甲基-２-甲基丙烯酸酯基乙胺(ＭＭＥＡＮＢ),并完成了单体的聚合和共聚,得到了含有非线性光学活性基团(ＮＬＯ)的侧链液晶高分子,对其结构进行了表征,结果表明,均聚物ＰＭ５ＭＰＰ及共聚物(Ｍ５ＭＰＰ/ＭＭＥＡＮＢ)属双向液晶高分子,ＰＭＭＥＡＮＢ属于非晶性分子,证实了分子间吸电子与给电子基团相互作用有利于提高液晶高分子热稳定性,共聚物(Ｍ５ＭＰＰ/ＭＭＥＡＮＢ)具有较宽的液晶相温度范围.     

含有联苯和肉桂酸酯基团的侧链液晶共聚物的合成与表征

合成了两种含有联苯刚性基元的甲基丙烯酸酯单体M1和M2,其中M1为含有可光交联的肉桂酸酯端基的单体.通过溶液自由基聚合,得到一系列含不同比例M1和M2单体单元的聚丙烯酸酯类侧链液晶共聚物.采用1H-NMR、FT-IR等方法对单体和聚合物的结构进行了详细表征.用示差扫描量热法、偏光显微镜以及广角和小角X-射线衍射对单体和聚合物的液晶性进行了研究.结果表明,末端为肉桂酸酯基团的单体M1无液晶性,其均聚物P1有微弱的液晶性,而端基为正丁基的单体M2及其均聚物P9则表现出近晶相液晶行为.共聚物P2~P5均为向列型液晶,P6~P9则为近晶型液晶.随在聚合物中M2单体含量的增加,共聚物的玻璃化转变温度、熔点及清亮点温度均呈现增加趋势.     

二氧化碳-环氧丙烷共聚物的链结构控制

针对制约二氧化碳-环氧丙烷共聚物(PPC)规模化应用的玻璃化温度低的问题,提出了改进PPC链结构的3个方法,即提高共聚物的分子量、制备交联型PPC、合成区域规整结构PPC.通过研究链结构变化对PPC热性能和机械性能的影响,证明通过共聚物链结构的设计和控制,可以大幅度增强PPC的分子间作用力,从而提高了PPC的使用温度,改善了PPC的使用性能.     

PEEK-PEDEK嵌段共聚物的合成与热性能研究

在亲核取代基础上通过分步加料法合成了一系列联苯含量不同的PEEK-PEDEK嵌段共聚物,并对其热性能与结晶行为进行了初步研究.结果表明,联苯的引入明显提高了聚合物的玻璃化转变温度;聚合物的熔点随联苯含量的增加呈先下降后上升的变化规律,体系在联苯含量为20%处出现最低共熔点.     

高效液相色谱法快速测定5种新型植物生长调节剂

近年来有机化学家们对植物生长调节剂进行了大量的研究[1-3].但是把两个天然细胞分裂素(二苯基脲)分子,中间用多甘醇长链连接起来,合成一系列新的双细胞分裂素分子,在国内外还为首创.这种"双活性中心"的植物生长调节剂完全无毒,又具有强烈的生长素作用.准确分析研究这类化合物,对控制反应条件,提高产率,发挥其在农业生产中的应用均有重要意义.     

星形胶束自由能和聚集数的理论分析

ＡＢ型嵌段聚合物在选择性溶剂中将发生微相分离,形成一种球形胶束[1].所谓选择性溶剂是指此溶剂仅能溶解共聚物中某一链段,而对另一链段则为不良溶剂.对这一体系的实验研究是从80年代兴起的,主要采用现代测试技术来表征形成胶束的回转半径[2],动力学半径[3]、聚集数[4]和临界胶束浓度[5].从分子图景上看来,这种球形胶束包括两部分,内核(Ｃｏｒｅ)为密堆砌的链段Ａ;壳层(Ｃｏｒｏｎａ)为溶涨的链段.Ｈｅｌｆａｎｄ等[6]最早利用数值计算法来研究嵌段聚合物在本体中的微相分离的问题;Ｌｅｉｂｌｅｒ等[7]将此方法引入嵌段聚合物/均聚物体系.…     

聚谷氨酸苄酯-g-(聚四氢呋喃-b-聚异丁烯)共聚物的微观结构与形态

通过可控/活性离子聚合方法设计合成一系列不同共聚组成的聚谷氨酸苄酯-g-(聚四氢呋喃-b-聚异丁烯)的新型嵌段接枝共聚物,即PBLG-g-(PTHF-b-PIB),研究共聚物中支链(PTHF-b-PIB)长度及接枝密度对主链PBLG玻璃化转变温度、α-螺旋二级结构及其转变的影响,研究支链中PTHF链段长度对其双端受限的玻璃化转变及凝聚态结构的影响.结果表明:PBLG-g-(PTHF-b-PIB)共聚物中刚性主链保持α-螺旋二级结构;随着支链长度增加或接枝密度增加,主链PBLG的α-螺旋二级结构特征峰逐渐减弱,玻璃化转变温度逐渐提高,α-螺旋结构发生转变的焓值逐渐增大;在确定接枝密度的情况下,随着支链中PTHF链段长度增加,共聚物中双端受限的PTHF链段结晶逐渐增强,结晶熔融温度及熔融焓均增加;在确定支链中PTHF链段长度的情况下,随着接枝密度增大,支链间链段相互排斥,PTHF链段结晶逐渐减弱.     

Isothermal and nonisothermal crystallization kinetics of novel biobased poly(ethylene succinate-<Emphasis Type="Italic">co</Emphasis>-ethylene sebacate) copolymers from the amorphous state

In this work, the isothermal and nonisothermal crystallization kinetics of three novel biobased poly(ethylene succinate-co-ethylene sebacate) (PESSe) copolymers was systematically investigated with differential scanning calorimetry under different crystallization conditions from the amorphous state. For the isothermal cold crystallization kinetics study, the Avrami equation could well describe the crystallization process of PESSe at various crystallization temperatures. All three PESSe copolymers crystallized through the same crystallization mechanism; moreover, the overall isothermal cold crystallization rate of PESSe decreased with increasing ethylene sebacate (ESe) comonomer content. The nonisothermal cold crystallization kinetics of PESSe was also studied at different heating rates. With increasing ESe content or heating rate, the nonisothermal cold crystallization exotherm of PESSe copolymers shifted to high temperature range. Both the crystallization rate parameter and crystallization rate coefficient of PESSe copolymers decreased with increasing ESe content, indicating that PESSe copolymer with higher ESe content crystallized more slowly than that with lower ESe content. The Ozawa equation was used to analyze the nonisothermal cold crystallization kinetics of PESSe copolymers, which was found to fit the crystallization process very well.     

CRYSTALLIZATION OF BLENDS OF AN ASYMMETRIC POLY（OXYETHYLENE）-b-POLY（OXYBUTYLENE） BLOCK COPOLYMER WITH POLY（OXYBUTYLENE）

An oxyethylene/oxybutylene block copolymer with asymmetric volume fraction (E115B103) was blended with oxybutylene homopolymer (Bh) at different volume fractions of the block (φE). Crystallization behavior of the blends was studied and was compared with that of the blends from a symmetric block copolymer (E114B56). It was found that the crystallization temperature of E115B103/B28 blend is lower than that of the blends from symmetric block copolymer. For the blend with φE= 0.30 breakout crystallization with an Avrami exponent n ≈ 3.0 is observed. At φE = 0.22 the blend exhibits a variable crystallization behavior: confined crystallization with n ≈ 1.0 at lower crystallization temperatures but breakout crystallization at high crystallization temperatures. For the blend with φE = 0.14 and sphere morphology confined crystallization occurs at all crystallization temperatures studied. When compared with the blends from symmetric block copolymer, confined crystallization occurs more easily in the E115B103/B28 blends. The SAXS results agree with the isothermal crystallization kinetics. Deformation of the confined crystalline block is observed in the blend with φE = 0.14 and mixed lamellar and cylinder morphologies in the blend with φE = 0.22.     

聚丙烯结晶行为的PVT研究

通过受限液体PVT测量技术对等规聚丙烯的结晶行为进行了研究,采用PVT等压测量模式描述了不同压力场下半结晶聚合物的结晶过程.结果表明,随着压力的升高,等规聚丙烯分子链间的相互作用增强,使得等规聚丙烯分子链段更容易排入晶格中,这是结晶温度和结晶速度升高的主要因素.通过对数据拟合,建立了压力对等规聚丙烯结晶过程参数的影响公式.对Jeziorny结晶动力学模型进行改进,并研究了压力对等规聚丙烯结晶动力学的影响,结果发现,当结晶度大于0.08时,结晶动力学拟合曲线呈较好的线性,分析结果可以对结晶过程的变化机理进行合理地预测,在小于200 MPa压力环境下,等规聚丙烯的结晶生长方式仍是球晶生长模式,晶体的生长符合二维片晶生长方式,自由体积的减小是结晶速率加快的主要原因之一.     

A Study on Improving the Crystallization Rate of Poly (Ethylene Terephthalate)

In this study, sodium benzoate was selected as the nucleating agent to improve the crystallization rate of Poly (Ethylene Terephthalate) (PET). A new polyester, PEAT, which was systhesized from Bis Hydroxy-Ethyl Terephthalate (BHET) and adipic acid, was blended with PET to improve the (crystallization) rate of PET at lower temperatures. The crystallization rate of the PET blends was measured with a DSC and the kinetics of crystallization were studied. It was found that the range of the crystallization temperatures for the PET/sodium benzoate blends was wider than that for the PET/PEAT blends which shifted to a lower temperature region. PEAT showed a pronounced effect on the crystallization rate at lower temperatures, while sodium benzoate effected the crystallization rate within the entire range of crystallization temperatures.     

聚十二烷二元酸丁二酯及其共聚酯的结晶行为研究

聚十二烷二元酸丁二酯是长碳链脂肪族聚酯中的一种新的聚合物材料．近年来，随着对环境问题的日益重视，利用脂肪族聚酯容易水解的特性，开发生物降解脂肪族聚酯材料的研究得到广泛开展．目前脂肪族二元酸酯的研究大多是围绕聚丁二酸酯、聚乙二酸酯及其共聚酯这一类降解速度较快的材料进行的．虽然这些聚酯已有部分商品化，但远远不能满足对特定降解速率材料的需求．长碳链脂肪族聚酯由于其具有类似PE的结构特征，又兼具聚酯的结构特征，有望在可降解包装材料、书籍装订、服装用热熔胶等方面获得广泛的应用．     

Crystallisation of polypropylene matrix in composites filled with wooden parts of rapeseed straw

Nucleation ability of native and modified rapeseed straw during the polypropylene crystallization from the melt was investigated by the DSC method. Composites were made from isotactic polypropylene and lignocellulosic material using extrusion and injection moulding techniques. They were obtained using polypropylenes differing with respect to melt flow rates and different varieties of rapeseed straw. Chemical modification was carried out in two stages: through mercerisation and treatment with acetic acid anhydride. In the course of investigations, it was found that both native and modified rapeseed straw acted as an active nucleant of polypropylene crystallisation characterised by low values of MFR indices. It was found that for polypropylenes with high MFR values, the values of crystallization temperatures and crystallization half-time in composites were identical when compared with non-filled polymers. The investigations demonstrated that there were insignificant differences among composites containing straw from different varieties of rapeseed. The analysis of crystallization temperatures confirmed that rapeseed straw modification failed to change this parameter of the crystallization process. A similar tendency was observed in the case of changes of the half-time crystallization process. Moreover, the analysis of the crystallization temperature and crystallization half-time showed that the presence in composites of lignified rapeseed straw particles played an important role in the crystallization conditions.     

Effect of Electron Beam Irradiation on the Kinetics of Non-isothermal Crystallization of Nylon 66

The non-isothermal crystallization kinetics was studied by differential scanning calorimetric analysis on nylon 66 and e-beam irradiated nylon 66 at different cooling rates. The Modified Avrami equation, the Ozawa equation and the Combined Avrami-Ozawa equation were applied to study the kinetics of non-isothermal crystallization of nylon 66. The crystallization behavior of pristine nylon 66 polymer was compared with that of e-beam irradiated nylon 66 and observed that the kinetics of non-isothermal crystallization of nylon66 was affected largely upon e-beam irradiation. E-beam irradiation not only decreased the crystallization temperature of nylon 66, but influenced the mechanism of nucleation and crystal growth and reduced the overall crystallization rate of nylon 66 also. The crystallization activation energy calculated by the Kissinger method for irradiated nylon 66 was lower than that of pristine nylon 66.     

单轴取向聚对苯二甲酸乙二酯非等温结晶动力学研究

采用等速升温DSC方法对单轴取向聚对苯二甲酸乙二酯 (PET)的结晶过程进行了研究 ,发现单轴取向PET的冷结晶峰表现为多重结晶峰 .等温DSC方法的研究结果进一步证实结晶重峰的存在 .为此 ,本文提出了一种依据非等温DSC曲线解析高聚物结晶动力学参数的新方法 .对单轴取向PET的研究结果表明 ,与其他方法相比较 ,由新方法计算出的理论曲线与实验数据能更好地吻合 .单轴取向PET的总的结晶过程由三个子结晶过程组成 .根据不同拉伸比 ,各个子过程的Avrami指数和质量分数的变化 ,对结晶机理进行了解释 .与各向同性PET样品相比 ,单轴取向PET在低温部分的结晶速率明显增快     

丙酮诱导聚碳酸酯的结晶行为

在298 K, 采用液相丙酮或26.5 kPa蒸气压的气相丙酮, 对双酚A聚碳酸酯(BAPC)的液相或气相诱导结晶行为进行研究. 实验结果表明, 在诱导结晶的起始阶段, 非晶态BAPC结晶能力得到极大的提高. 气相诱导BAPC结晶的结晶速度和结晶度均低于液相诱导结晶的结果. 广角X射线衍射(WAXD)测试结果表明, 与BAPC热结晶样品相比, 丙酮液相或气相诱导BAPC结晶生成的晶体具有完善度低、晶粒尺寸小、熔点低, 而结晶度高的结构特点. 采用扫描电子显微镜(SEM)分别对液相或气相丙酮诱导BAPC结晶样品表面形态进行了观察, 研究了不同诱导机制下BAPC的结晶生成球晶的形态与机制.     

Crystallization behavior of dynamically cured polypropylene/epoxy blends

Dynamically cured polypropylene (PP)/epoxy blends compatibilized with maleic anhydride grafted PP were prepared by the curing of an epoxy resin during melt mixing with molten PP. The morphology and crystallization behavior of dynamically cured PP/epoxy blends were studied with scanning electron microscopy, differential scanning calorimetry, and polarized optical microscopy. Dynamically cured PP/epoxy blends, with the structure of epoxy particles finely dispersed in the PP matrix, were obtained, and the average diameter of the particles slightly increased with increasing epoxy resin content. In a study of the nonisothermal crystallization of PP and PP/epoxy blends, crystallization parameter analysis showed that epoxy particles could act as effective nucleating agents, accelerating the crystallization of the PP component in the PP/epoxy blends. The isothermal crystallization kinetics of PP and dynamically cured PP/epoxy blends were described by the Avrami equation. The results showed that the Avrami exponent of PP in the blends was higher than that of PP, and the crystallization rate was faster than that of PP. However, the crystallization rate decreased when the epoxy resin content was greater than 20 wt %. The crystallization thermodynamics of PP and dynamically cured PP/epoxy blends were studied according to the Hoffman theory. The chain folding energy for PP crystallization in dynamically cured PP/epoxy blends decreased with increasing epoxy resin content, and the minimum of the chain folding energy was observed at a 20 wt % epoxy resin content. The size of the PP spherulites in the blends was obviously smaller than that of PP. © 2004 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 42: 1181–1191, 2004