聚对苯二甲酸乙二酯溶剂诱导结晶研究 Ⅲ．溶剂对聚对苯二甲酸乙二酯玻璃化转变温度的影响

应用动态力学方法测定了聚对苯二甲酸乙二酯ＰＥＴ／溶剂体系的粘弹谱，从实验上证实溶剂对ＰＥＴ进行增塑，使其玻璃化转变温度降低，导致ＰＥＴ在低下通常的结晶温度下结晶，甚至在室温便进行结晶，证明溶剂诱导结晶是由于玻璃化转变温度降低的机理是正确的。可接受的。     

聚对苯二甲酸乙二酯溶剂诱导结晶研究 Ⅲ．溶剂对聚对苯二甲酸乙二酯玻璃化转变温度的影响

应用动态力学方法测定了聚对苯二甲酸乙二酯ＰＥＴ／溶剂体系的粘弹谱，从实验上证实溶剂对ＰＥＴ进行增塑，使其玻璃化转变温度降低，导致ＰＥＴ在低于通常的结晶温度下结晶，甚至在室温便进行结晶，证明溶剂诱导结晶是由于玻璃化转变温度降低的机理是正确的，可接受的．     

全对位聚芳醚砜醚酮酮的结晶行为研究

以AlCl3/DCE/DMF为溶剂体系,采用低温溶液缩聚合成全对位聚醚砜醚酮酮(p-PESEKK)树脂,研究了端基、分子量及溶剂体系对树脂的溶剂诱导结晶行为的影响.结果表明,在AlCl3/DCE/DMF的良溶剂中制得的p-PESEKK为低结晶度聚合物,由于分子链中四面体结构砜基的影响,树脂熔融后很难再结晶;随脂肪链端基碳原子数的增加,溶剂诱导结晶速度逐渐下降,结晶度降低,与主链结构相同的端基更有利于结晶的形成;高分子量的p-PESEKK端基的比例相对较小,有利于溶剂诱导结晶.     

一种新型间位聚芳醚酮的晶体结构

聚醚醚酮 (PEEK)自英国 ICI公司开发并工业化以来 ,由于其优异的性能已在机械、航天等领域得到广泛应用 .但 PEEK的 Tg 只有 41 6K,影响了使用范围 .因此其它聚芳醚酮类聚合物相继被开发出来 .但这些聚芳醚酮的主链结构大都为全对位连接 ,使其熔点较高以至加工难度增大 .如果在聚合物主链结构中引入间位结构 ,则可在对玻璃化转变温度影响较小的情况下降低熔点来改善加工条件[1,2 ] .新型间位聚醚酮醚酮酮 (PEKEKm K)是其中一种 ,其玻璃化转变温度 Tg 为 41 7K,Tm 为 5 82 K.无论熔体结晶、冷结晶和溶剂诱变结晶 ,PEKEKm K都只出…     

溶剂蒸气对聚对苯二甲酸乙二酯作用的差示扫描量热研究

用差示扫描量热(DSC)研究了几种有机溶剂蒸气对聚对苯二甲酸乙二酯(PET)的作用,表明可分为反应性的和非反应性的两种。同时,对于非反应性的作用,依冷结晶峰面积的变化,又可分为三种类型:冷结晶峰面积不变,经诱导期后下降,无诱导期而迅速下降。双冷结晶峰现象在一些非反应性溶剂处理过的PET试样的DSC曲线也观察到。     

用DSC测量葡萄糖溶液部分玻璃化转变温度的新方法

用差示扫描量热仪, 采用经过退火处理的连续扫描法, 以不同浓度(20%、45%)的葡萄糖溶液为研究对象, 研究了退火温度对Tgf(部分结晶的玻璃化转变温度)的影响, 给出了确定Tg′(部分玻璃化转变温度)的新方法. 研究发现, 不同退火温度下的Tgf不同. 在−50 ℃以上退火, Tgf随着退火温度的增大而减小; 在−50 ℃以下退火, Tgf随着退火温度的增大而增大, 都有很好的线性关系. 不同浓度的溶液具有相似的规律. 提出从Tgf确定Tg′的方法: Tgf在−50 ℃上下随退火温度变化线的交点所对应的部分结晶玻璃化转变温度即为Tg′. 使用该方法测得葡萄糖的Tg′为−55 ℃.     

钴胺素的溶析结晶研究以及离子杂质对晶体生长的影响

采用激光法研究了钴胺素的结晶热力学,包括在不同温度下,不同溶剂配比下的溶解度和超溶解度,介稳区的测定。研究了四种不同的离子杂质(Na+,Mg2+,Ca2+and Fe3+)对钴胺素结晶诱导期的影响。通过实验结果表明钴胺素在溶析结晶过程中,Fe3+和Mg2+要比Na+和Ca2+具有更明显的影响。     

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.     

超临界CO_2下的聚合物结晶形态和动力学研究现状北大核心CSCD

聚合物结晶一直以来是高分子凝聚态研究的热点,随着超临界流体尤其是超临界CO2(scCO2)在聚合物方面应用日益增加,对超临界条件下的聚合物结晶研究显得更加重要。scCO2在聚合物中溶解度较高,增塑效果好,能显著降低玻璃化温度(Tg)和熔点(Tm),改变聚合物的晶体形态,并对动力学过程产生较大影响。因此,聚合物在scCO2条件下结晶行为的深入研究,在实际应用中起着重要的指导作用。本文对scCO2作用下的链型、晶体形态、共混物特点和结晶动力学过程的研究现状进行综述。     

低中高速纺PET纤维的结构特征和中速纺PET纤维的结构转变

本文用密度法、DSC和x射线衍射研究了PET纤维的纺速对结晶度和其他结构参数的影响,发现结晶度和某些结构参数在纺速3300m/min下出现不连续变化,预示该中速纺的纤维容易诱发结晶。通过分析该中速纺纤维在低于Tg的不同温度下于定长(受约束)和不定长(可自由松弛)下热处理后各结构参数的相互关系,探讨了其结晶机制,说明其容易诱发结晶的原因是中介态含量接近饱和状态。     

DETECTION OF T_g BY MODULATED DIFFERENTIAL SCANNING CALORIMETRY

The glassy transition of the polyethylene terephthalate (PET) sampleswhich have been subjected to solvent induced crystallization (SINC) was investigated bymodulated differential scanning calorimetry (MDSC) and density measurement. The dif-ferential of heat capacity signal, d C_p/dT from MDSC, was used to monitor the SINCprocess. It reveals that the T_g temperature shifts to higher value with the advancement ofSINC. When the toluene-immersing time was longer (168h), the detection of T_g becomemore difficult, because some smaller peaks emerged at the lower temperatures and theseare explained as the movement of small segments in the amorphous region. These observedresults are due to the morphology and structure introduced by the SINC process.     

Effects of methylene chloride sorption on the properties of poly(ether ether ketone)

Sorption of methylene chloride by poly(ether ether ketone) (PEEK) has been studied for both amorphous and highly crystalline polymer. After the determination of sorption and desorption curves, the crystallinity of the two materials after desorption was determined both by density and X-ray measurements. The experimental results indicate the existence of solvent-induced crystallization in initially amorphous PEEK and a virtual lack of this process in highly crystalline PEEK. In the latter case, the observed density increase is attributed to solvent compression and a decrease in free volume. The mechanical behavior of both PEEKs is consistent with their crystallinity levels. The mechanical behavior of both PEEKs before and after sorption allows us to discern the separate effects of the two processes to which the presence of methylene chloride in PEEK gives rise, i.e., plasticization and solvent-induced crystallization. © 1994 John Wiley & Sons, Inc.     

Solvent-induced crystallization of nylon-6I

The ability of various hydrogen bond-forming solvents to induce crystallinity in nylon-6I was studied using DSC, FTIR spectroscopy, and x-ray diffraction. Comparison was made with predictions using the solubility parameter, which is related to possibilities of interaction formation. General predicted tendencies agreed with experimental results, in agreement with proposed influence of solvent-polymer interactions in the solvent-induced crystallization process. FTIR investigation of polymers treated with methanol and methanol-d shows that polymer segments forming hydrogen bonds with solvent molecules crystallize preferentially. It is therefore concluded that hydrogen bond exchanges with the solvent favor chain rearrangements leading to crystallization. © 1995 John Wiley & Sons, Inc.     

Effect of Interfacial Adsorption on the Stability of Thin Polymer Films in a Solvent-induced Process

The stability of ultrathin polymer films plays a crucial role in their technological applications. Here, we systematically investigated the influence of interfacial adsorption in physical aging and the stability of thin polymer films in the solvent-induced process. We further identify the stability mechanism from the theory of thin film stability. Our results show that the aging temperature and film thickness can strongly influence the stability of thin PS films in acetone vapor. Physical aging can greatly improve the stability of thin polymer films when the aging temperature T_(aging1)T_g. A thinner PS film more quickly reaches a stable state via physical aging. At short aging time, the formation of the adsorbed layer can reduce the polar interaction; however, it slightly influences the stability of thin polymer films in the solvent-induced process. At later aging stage,the conformational rearrangement of the polymer chains induced by the interfacial effect at the aging temperature T_(aging1) plays an important role in stabilizing the thin polymer films. However, at T_(aging2)T_g, the process of physical aging slightly influences the stability of the thin polymer films.The formation of the adsorbed layer at T_(aging2) can reduce the short-range polar interaction of the thin film system and cannot suppress the instability of thin polymer films in the solvent-induced process. These results provide further insight into the stable mechanism of thin polymer films in the solvent-induced process.     

利用光学显微镜研究溶剂诱导的梯形苯基聚倍半硅氧烷结晶

通过溶剂诱导结晶的方法研究了梯形苯基聚倍半硅氧烷(PPSQ)的球晶结构. 采用光学显微镜研究了溶液的浓度、溶剂的挥发时间以及温度等影响因素对梯形苯基聚倍半硅氧烷的球晶结构形貌的影响. 实验结果表明:稀释溶液浓度与提高结晶温度在改变球晶的形态方面具有相同的效果. 球晶的尺寸会随着溶液浓度的降低或者结晶温度的升高而增加. 这都归因于梯形苯基聚倍半硅氧烷在二甲苯中的溶解度的增加. 在不改变其它结晶条件的情况下,延长溶剂的挥发时间也会形成更大的球晶. 当在光学显微镜下旋转样品时球晶的结构不会发生改变,这表明球晶具有均一的晶体学取向结构. 负性球晶的特征也表明梯形苯基聚倍半硅氧烷的分子链是沿着球晶的切线方向排列. 考虑到梯形苯基聚倍半硅氧烷具有刚性的分子链,还提出了梯形苯基聚倍半硅氧烷可能的球晶结构模型.     

Effects of solvent treatment on crystallization kinetics of poly(p-phenylene sulfide)

Isothermal melt crystallization kinetics were investigated by differential scanning calorimetry (DSC) for virgin and α-chloronaphthalene solvent-treated poly(phenylene sulfide) (PPS) systems. The overall crystallization rates were found to be much faster for the solvent-treated PPS than for the virgin neat PPS. Additionally, the Avrami crystallization plot for the solvent-treated PPS samples appeared as two straight portions with an apparent discontinuity, but as a continuous straight line for the virgin PPS system. After the treatment of solvent dissolution and subsequent drying, the residual trace α-chloronaphthalene, upon being quenched to the crystallization temperatures, initiated some localized solvent-induced nuclei-like crystals in PPS. It was the nuclei that enhanced secondary crystallization in treated PPS during the second stage, and the higher extents of secondary crystallization in the solvent-treated PPS caused the apparent discontinuous break in the Avrami plots. The causes for the difference were explained and the mechanism of the sequential primary/secondary crystallization kinetics for the solvent-treated PPS was satisfactorily described with a proposed series-parallel crystallization model. ©1995 John Wiley & Sons, Inc.     

The effect of morphology on the transport of dichloromethane in poly(aryl-ether-ether-ketone)

A study of the transport of the dichloromethane in neat poly(aryl-ether-ether-ketone) (PEEK) samples with thicknesses from 0.08 to 3.0 mm with different morphologies was conducted at 35°C. Both sorption and desorption of the solvent were studied. Thermal annealing was used to vary the sample morphology, and density measurements were used to determine the crystallinity of the samples. The equilibrium concentration of solvent and rate of solvent sorption were found to vary with sample morphology. The density of the dichloromethane when in the PEEK resin was found to be 1.65 g/cm³. Solvent desorption was independent of sample morphology or any previous sample treatment and depended only upon desorption temperature. Solvent sorption appears to alter the morphology of amorphous samples by increasing the crystallinity to about 20% after one sorption/desorption cycle. Small amounts of the solvent, less than 0.5 wt.%, remain trapped in fully desorbed samples. The micromorphology of solvent-induced crystallization appears to be different from that induced by thermal treatment.     

Structural Evolution Process in Solvent-Induced Crystallization Phenomenon of Syndiotactic Polystyrene

Structural change has been traced in the solvent-induced crystallization phenomenon of syndiotactic polystyrene through the time-resolved measurements of infrared and Raman spectra and X-ray diffraction. Immediately after the solvent is supplied to the glassy sample, the random coils start a micro-Brownian motion and locally change to short regular helical segments after some induction time. These segments grow longer and gather together to form the crystal lattice. This crystallization occurs even at room temperature far below the original glass transition temperature (Tg = ca. 100°C), because Tg is shifted to ca. −90°C (in the case of chloroform) due to the plasticizing effect, as revealed by the temperature-dependent infrared spectral measurement and the molecular dynamics calculation. The thus-created sPS-solvent complex was found to show a fast and reversible solvent exchange phenomenon between the originally-existing solvent (toluene, for example) and the newly-supplied different type of solvent (chloroform, for example). The time-dependent measurement of wide-angle and small-angle X-ray scatterings using a synchrotron radiation source revealed that the solvent exchange occurs with keeping both the columnar structure of the crystal and the stacked lamellar structure, and that the solvent exchange rate is in the order of chloroform > benzene > toluene, reflecting the difference in diffusion rate of solvent molecules and polymer-solvent interaction.     

Microscopically-viewed structural changes in solvent-induced phase transitions of synthetic polymers

Structural changes occurring in the solvent-induced phase transition have been investigated by carrying out the time-resolved measurements of X-ray diffraction, infrared spectra and Raman spectra. First example is about the solvent-induced crystallization of syndiotactic polystyrene glass. By comparing the time evolution of the various infrared and Raman bands and the X-ray reflections, the process of nucleation, growth, and aggregation of regular helical sequences in the crystalline lattice could be traced concretely. It was also found experimentally that the amorphous chain segments started an active motion immediately after absorbing solvent molecules and became a trigger to induce the local regularization of random coils into regular helical segments. The second example is the reversible solid-state phase transition of poly(ethylene imine) between the anhydrate of doubly-stranded helices and the hydrates of planar zigzag chains. By carrying out the time-resolved infrared spectral measurements in water vapor atmosphere (H₂O or D₂O), the characteristic bands could be identified for these crystalline phases and the structural transformation in the hydration process could be clarified in detail.     

SYNTHESIS AND CRYSTALLIZATION BEHAVIOR OF POLY(ETHER ETHER KETONE ETHER KETONE)(PEEKEK)*

In this paper, the synthesis and crystallization behavior of poly(ether ether ketone ether ketone) (PEEKEK) arereported. PEEKEK was prepared from 4,4'-bis(p-fluorobenzoyl) diphenyl ether (4,4'-FBDE) and hydroquinone along thenucleophilic substitution route. The thermal properties were investigated by using DSC and TGA. The crystallizationbehavior of PEEKEK under several conditions, i.e., crystallization from the molten state (melt crystallization), crystallizationfrom a quenched sample (cold crystallization) and crystallization induced by exposing glassy sample to methylene chloride(solvent-induced crystallization) has also been investigated. The results show that crystallization of PEEKEK could beinduced by the above methods, and no polymorphism was found. The diflierences in the crystallization of PEEKEK inducedby the above methods are seen in their degree of crystallinity.