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本文研究工作表明,聚乙二醇(PEG)作为聚对苯二甲酸乙二酯(PET)/聚对苯二甲酸丁二酯(PBT)共混体系的结晶促进剂.不仅使聚合物分子链运动容易而有利于结晶时定向排列,晶体生成速度加快.而且使成核剂的成核效率提高,晶核生成速度加快,晶核数目增多而晶体尺寸减小.此外,PEG还部分参与了聚酯的酯交换反应,在低用量时有利于聚合物特性粘数提高,而用量增大则引起聚酯降解.由于PEG的这些作用,共混体系在PEG为6.0%时的模量及γ-衰减强度最大.动态力学性能最好. 相似文献
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本文研究工作表明,聚乙二醇作为聚对苯二甲酸乙二酯(PET)/聚对苯二甲酸丁二酯(PBT)共混体系的结晶促进剂,不仅使聚合物分子链运动容易而有利于结晶时定向排列,晶体生成速度加快,而且使成核的成效率提高,晶核生成速度加快,晶核数目增多而晶体尺寸减小,此外,PEG还部分参与了聚酯的酯交换反应,在低用量时有利于聚合物特性粘数提高,而且量增大则引起聚酯降解。由于PEG的这些作用,共混体系在PEG为6.0% 相似文献
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用广角X-角线衍射法和差法扫描量热法研究了磷酸三苯酯对PBT/PET共混体系结晶行为影响,结果表明:TPPW作为该共混体系的稳定剂,只能延长在熔融状态下酯交换反应发生的时间,TPP含量一定时,熔融时间增加,PBT,PET之间的酯交换反应同样会发生,不同熔融时间,就要求TPP的用量也不相同。TPP在PBT/PET共混体系中没有结晶成核剂的作用,它也不改变PBT,PET的结晶结构。 相似文献
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高分子化合物由于具有很长的分子链,不易进行规整排列,结晶速度通常很慢,为提高结晶速度,有时需要加入成核剂.多孔二氧化硅(SiO2)具有较大的比表面积,故吸附作用较强,有可能作为成核剂影响部分结晶高聚物的结晶过程.聚环氧乙烷(PEO)为部分结晶高聚物,其结晶行为对杂质较为敏感.本文目的在于通过结晶动力学及结晶与熔融行为的研究,探索多孔二氧化硅对PEO结晶行为的影响.1 实验部分 聚环氧乙烷(PEO,Mw=1×105).两种多孔二氧化硅(SiO2)按文献[1]方法制备,平均粒度为0.3μm,平均孔… 相似文献
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利用DSC和偏光显微镜等手段研究了部分成核剂对聚丙烯均聚物(PP)、低乙烯含量聚丙烯共聚物及聚丙烯/聚乙烯(PP/PE)共混物结晶行为的影响,结果表明所用成核剂对PP和改性PP具有一定的普适性。聚丙烯共聚物中,由于链结构规整性变差,成核剂的作用显得特别突出,而PP/PE共混物中,由于成核剂向PE相迁移而使其对PP结晶的成核效率降低。 相似文献
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研究了结晶性高分子聚对苯二甲酸乙二酯(PET)聚二苯氧乙烷(1,2)二甲酸(P.P′)乙二酯(PEET)混合系的热结晶化机理.用DSC,X光,偏光显微镜观测研究发现,PET与PEET的熔融混合并未发生酯交换和共聚合等化学反应,各组分独立结晶,它们的结晶度、结晶速度、球晶结构受到结晶化温度和混合组成两因子的影响,提出了表征这种效果的综合结晶化阻碍因子值. 相似文献
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聚对苯二甲酸乙二酯/蒙脱土纳米复合材料的制备和性能 总被引:51,自引:0,他引:51
讨论了聚对苯二甲酸乙二醇酯(PET)/层状硅酸盐(蒙脱土)纳米复合材料的制备技术和新材料的结构与性能特征.天然蒙脱土矿物经有机离子修饰剂处理后,参与PET的缩聚反应.TEM测定证实蒙脱土在PET中的层厚分布为30~50nm.蒙脱土不影响PET的分子量及其分布.利用DSC、WAXD、SALS和偏光显微镜测定了PET/蒙脱土的结晶速率和结晶形态,说明PET/蒙脱土有着很快的结晶速率,不能生成球晶结构,一般只能生成结构不完整的微晶体.PET/蒙脱土在工程塑料和工业纤维领域有潜在的应用前景 相似文献
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聚合物结晶成核剂作用的表征方法的比较和研究 总被引:16,自引:4,他引:16
用聚合物的等速降温过程的结晶温度,等温结晶过程的半结晶时间(t1/2)或结晶速度常数(K),结晶过程的晶核密度或球晶尺寸大小和聚合物结晶成核界面自由能(σσe或σe)大小等方法描述了碳酸钙、对苯二甲酸、苯甲酸钠对聚丙烯成核结晶过程的影响.通过对不同方法的比较,结果表明不同方法是从不同角度来反映助剂对聚合物成核结晶过程的影响,聚合物结晶温度的高低和等温结晶过程的半结晶时间或结晶速度常数是描述聚合物整体结晶速度的参数;而聚合物结晶过程中晶核密度或结晶完了时聚合物球晶尺寸,和聚合物结晶成核界面自由能大小与聚合物的成核难易程度直接相关,是判断聚合物结晶成核速度的方法.但不同方法之间存在一定的相关性,所以用不同方法测定的结果之间有较好的可比性,可根据具体条件选用一种方法.多种方法的配合使用可以较全面的了解成核剂的作用. 相似文献
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根据DSC测得的数值,采用Jeziorny ,Вороховский和由作者实验室提出的一种新方法研究了十二烷基取代聚噻吩(P3DDT) 和十八烷基取代聚噻吩(P3ODT) 的非等温结晶过程,并应用Kissinger 法求取其结晶表观活化能ΔE,探讨了不同烷基取代基团对结晶过程的影响.P3DDT 应用Jeziorny 和Вороховский法描述时在结晶后期均发生偏离现象,而作者提出的新方法描述时则得到较好的线性关系.求得P3DDT 的ΔE 为184-79kJ/mol,P3ODT 的ΔE 为246-93kJ/mol,比较结晶表观活化能数值可知,P3DDT 比P3ODT 更易结晶. 相似文献
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Chunhua Ge Peng Ding Liyi Shi Jifang Fu 《Journal of Polymer Science.Polymer Physics》2009,47(7):655-668
Poly(ethylene terephthalate) (PET)/Barite nanocomposites were prepared by direct melt compounding. The effects of PET‐Barite interfacial interaction on the dynamic mechanical properties and crystallization were investigated by DMA and DSC. The results showed that Barite can act as a nucleating agent and the nucleation activity can be increased when the Barite was surface‐modified (SABarite). SABarite nanoparticles induced preferential lamellae orientation because of the strong interfacial interaction between PET chains and SABarite nanoparticles, which was not the case in Barite filled PET as determined by WAXD. For PET/Barite nanocomposites, the Avrami exponent n increased with increasing crystallization temperature. Although at the same crystallization temperature, the n value will decrease with increasing SABarite content, indicating of the enhancement of the nucleation activity. Avrami analyses suggest that the nucleation mechanism is different. The activation energy determined from Arrhenius equation reduced dramatically for PET/SABarite nanocomposite, confirming the strong interfacial interaction between PET chains and SABarite nanoparticles can reduce the crystallization free energy barrier for nucleus formation. In the DSC scan after isothermal crystallization process, double melting behavior was found. And the double endotherms could be attributed to the melting of recrystallized less perfect crystallites or the secondary lamellae produced during different crystallization processes. © 2009 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 47: 655–668, 2009 相似文献
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The influence of cyanuric acid (CA) as an efficient nucleating agent on the crystallization behavior and morphology of biodegradable poly(ε-caprolactone) (PCL) was extensively studied in this work with several techniques for the first time. The nonisothermal melt crystallization behavior and overall isothermal melt crystallization rate of PCL were significantly enhanced by only a small amount of CA. The addition of CA apparently improved the nonisothermal melt crystallization peak temperature, overall isothermal melt crystallization rate, and nucleation density of PCL spherulites, but did not modify the crystallization mechanism and crystal structure of PCL, indicating that CA was an efficient nucleating agent for the crystallization of PCL. The possible nucleation mechanism of CA on the crystallization of PCL was also discussed on the basis of their crystal structures. 相似文献
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The influence of cyanuric acid(CA) as an efficient nucleating agent on the crystallization behavior and morphology of biodegradable poly(ε-caprolactone)(PCL) was extensively studied in this work with several techniques for the first time. The nonisothermal melt crystallization behavior and overall isothermal melt crystallization rate of PCL were significantly enhanced by only a small amount of CA. The addition of CA apparently improved the nonisothermal melt crystallization peak temperature, overall isothermal melt crystallization rate, and nucleation density of PCL spherulites, but did not modify the crystallization mechanism and crystal structure of PCL, indicating that CA was an efficient nucleating agent for the crystallization of PCL. The possible nucleation mechanism of CA on the crystallization of PCL was also discussed on the basis of their crystal structures. 相似文献
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Enhanced crystallization behaviors of poly(ethylene terephthalate) via adding expanded graphite and poly(ethylene glycol) 总被引:1,自引:0,他引:1
Juan-juan Su Guang-hui Yang Tian-nan Zhou Xiang Gao Ke Wang Qiang Fu 《Colloid and polymer science》2013,291(4):911-917
A compound additive system consisting of expanded graphite (EG) and poly(ethylene glycol) (PEG) was designed to enhance the crystallization of poly(ethylene terephthalate) (PET). In this additive system, EG acted as a heterogeneous nucleating agent to reduce energy barrier for nucleation, while PEG played as plasticizer to improve mobility of PET chains. Simultaneously adding EG and PEG resulted in faster crystallization kinetics than the cases of solely adding EG or PEG in both of non-isothermal and isothermal crystallization processes, indicating a synergistic effect of EG and PEG on enhancing PET crystallization. However, for non-isothermal crystallization process, in which crystallization occurred from a cooling melt, EG played a dominant role. As to isothermal crystallization process where crystallization took place in a super-cooling state, PEG seemed to be more important. Moreover, the chain conformation change among the semi-crystalline PET specimens was ascertained by Fourier transform infrared spectroscopy. 相似文献
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Jie Bian Sheng‐Rong Ye Lin‐Xian Feng 《Journal of Polymer Science.Polymer Physics》2003,41(18):2135-2144
The crystallization behavior of poly(ethylene terephthalate) (PET) with disodium terephthalate (DST) as nucleating agent was investigated. A detailed analysis of the crystallization course from the melt was made with the Avrami expression. The results demonstrated that DST additive can promote the PET crystallization rate in its entire crystallizable temperature range, and the acceleration degree of DST decreases with increasing temperature after a temperature higher than 180 °C. The values of the Avrami exponent indicated that the crystallization mode in Avrami theory is not suitable for the crystallization of these polymers, and the mechanism of the heterogeneous nucleation on PET crystallization is discussed. © 2003 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 41: 2135–2144, 2003 相似文献
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Neat poly(ethylene terephthalate) (PET) and PET/antimony doped tin oxide (ATO) nanocomposites were prepared by in situ polymerization. The study of the isothermal crystallization behaviors of neat PET and PET/ATO nanocomposites was carried out using differential scanning calorimetry (DSC). The crystallization kinetics under isothermal conditions could be described by the Avrami equation. For neat PET and PET/ATO nanocomposites, the Avrami exponent n both decreased with increasing crystallization temperature. In addition, for the same crystallization temperature, the value of n increased with increasing ATO content. These suggested that the crystallization types related to the values of n in the Avrami theory could not be suitable for the crystallization of PET and its nanocomposites. The change of the n values indicated that the addition of ATO resulted in the increase of the crystallizing growth points. That is a heterogeneous nucleating effect of ATO on crystallization of PET. In the DSC scan after isothermal crystallization process, multiple melting behavior was found. And the multiple endotherms could be attributed to melting of the recrystallized materials or the secondary lamellae produced during different crystallization processes. The equilibrium melting temperature of PET in the nanocomposites increased with increasing the ATO content. Surface free energy of PET chain folding for crystallization of PET/ATO nanocomposites was lower than that of neat PET, confirming the heterogeneous nucleation effect of ATO. 相似文献