低乙烯含量共聚聚丙烯链结构和相结构与应力应变行为的关系

研究了两种典型的低温抗冲共聚聚丙烯(ICPP)的应力应变行为及温度依赖性,其低温应力应变行为揭示ICPP具有优异的低温抗冲性能和综合力学性能的结构本质.从初始弹性模量、屈服应力及断裂伸长随温度变化所显示的变化规律进一步确认了两种ICPP的序列结构特征和相结构特征.断裂伸长变化显示了乙丙橡胶相的增韧作用,屈服应力变化显示了分散相对基质结合紧密程度的影响,弹性模量则与基质的结晶状况和结晶形态有着比较密切的关系,同时也与乙丙橡胶相和聚丙烯基质的玻璃化转变温度密切相关.     

抗冲共聚聚丙烯结构研究进展

综述了已广泛应用于汽车及家电行业的抗冲共聚聚丙烯结构的研究进展,重点介绍了抗冲共聚聚丙烯组成、链结构及聚集态结构的研究方法及研究进展。阐述了典型抗冲共聚聚丙烯的组成、链结构及聚集态结构,总结了研究抗冲共聚物组成、链结构以及聚集态结构的研究方法。同时还回顾了聚合工艺条件对抗冲共聚聚丙烯的组成及链结构的影响规律以及组成及链结构对材料聚集态相结构的影响规律。最后重点回顾了异质多相体系的组成、链结构及聚集态相结构与性能之间的关系,展望了抗冲共聚聚丙烯领域的某些可能发展方向。     

抗冲共聚聚丙烯的结晶与相形态

用POM、DSC、WAXD、DMA、AFM对两种乙烯含量、相对分子量及其分布、橡胶相含量几乎完全相同的、韧性差异很大的抗冲共聚聚丙烯(IPC)的结晶、相形态进行了研究.实验结果表明,两者的结晶形态、结晶行为相似.相比IPC-B,IPC-A中分散相和基体的相容性较好.IPC基体、分散相的组成分析发现,分散相的外层为软的乙丙无规共聚物(EPR),内部为硬的聚乙烯(PE)晶区,构成一种复杂的包藏结构.IPC的增韧效果主要来自于相形态和分散状况的贡献.提出了IPC的相结构模型,以描述IPC多相体系的相结构及两种IPC中E-b-P的作用与差异.     

等规聚丙烯在γ射线辐照下的链结构和结晶行为

利用凝胶渗透色谱(GPC)、傅里叶变换红外光谱(FTIR)和示差扫描量热(DSC)等手段对不同剂量γ射线辐照后等规聚丙烯(iPP)的分子链结构及结晶行为的变化进行了研究.结果表明,γ射线辐照使iPP的分子量下降,并在其分子链中产生羟基和羰基等极性基团,从而影响其结晶行为.在非等温结晶过程中,当辐照剂量≤50 kGy时,iPP的热结晶温度略有升高;增大辐照剂量,iPP的热结晶温度明显降低.iPP的熔融温度则随辐照剂量的增大而降低,且分裂成双峰.利用Avrami方程研究了辐照前后iPP的等温结晶动力学,发现辐照前后样品的Avrami指数n都在3左右,表明iPP的结晶遵循异相成核机理,且不受辐照剂量和等温结晶温度的影响,但总结晶速率随等温结晶温度和辐照剂量的升高而逐渐减小.探讨了iPP经过γ射线辐照后,分子链断裂、链结构变化和结晶速率之间的关系.     

共聚结构和分子量对热塑性聚酰亚胺树脂熔融与耐热性能的影响

基于具有刚性主链结构的4,4'-(六氟亚异丙基)双邻苯二甲酸酐/对苯二胺(6FDA/p-PDA)树脂体系, 通过共聚引入间苯二胺(m-PDA)、 4,4'-二氨基-2,2'-双三氟甲基联苯(TFDB)和9,9'-双(4-氨基苯基)芴(BAFL)等主链刚性且兼具大自由体积特性的芳香二胺, 以非反应性封端剂邻苯二甲酸酐(PA)对分子量进行调控, 设计制备了系列分子量可控的热塑性聚酰亚胺(TPI)树脂. 系统研究了共聚结构和分子量对TPI树脂熔融性能和耐热性能的影响, 构建了聚合物的聚集态结构与树脂熔融性能的对应关系, 并对树脂的室温和高温力学性能进行了评价. 研究结果表明, 大自由体积的芳香二胺共聚结构的引入可有效降低分子链堆砌密度, 增大聚合物的自由体积, 从而赋予树脂良好的熔融性能. 降低设计分子量可进一步改善树脂的熔融加工性. 这类具有刚性主链结构的TPI树脂兼具优异的耐热性能和力学性能, 树脂的玻璃化转变温度在308~338 ℃之间, 以TFDB和BAFL共聚制备的TPI-C-25K和TPI-D-25K树脂表现出高强高韧的特性, 拉伸和弯曲强度分别超过120 MPa和190 MPa, 断裂伸长率大于8.2%, 并且在250 ℃高温下表现出良好的耐热稳定性.     

纳米SiO_2对高抗冲聚丙烯树脂相结构与性能的影响

提出一种使高抗冲聚丙烯树脂的韧性和刚性同时得到提高的新方法.以亲油性纳米SiO_2改性高抗冲聚丙烯树脂,发现少量纳米SiO_2可显著降低高抗冲聚丙烯树脂中乙丙橡胶相的粒径和聚丙烯相的球晶尺寸,进而使高抗冲聚丙烯的常温韧性、低温韧性、刚性和耐热性同时得到提高.研究还发现,结晶成核剂和纳米SiO_2有协同效应,可使高抗冲聚丙烯的综合性能进一步得到提高.     

新型高效催化剂乙烯/1-丁烯气相齐聚和共聚制备弹性体及其结构与性能关系

用新型催化体系TiCl₄,Ti(OBu)₄/MgCl₂,SiO₂和ZnCl₂/醇/AlR₃催化乙烯与1-丁烯气相均聚及共聚,制得两种共聚物弹性体,发现新型催化剂体系具有独特的齐聚和原位共聚性能.采用¹³CNMR测定了共聚物链序列分布结构,观察到共聚单体在聚合物链中分布不均匀,存在较长的乙烯链段和较多的1-丁烯嵌段.产物DSC谱图表现出复杂的结晶熔融行为,存在多种结晶形态,出现熔融肩峰及双峰,与通常制得的LLDPE的结晶熔融行为有很大差别;结晶度和密度较低,并具有弹性体性质.     

共聚型2—乙基己基膦酸单2—乙基己基酯萃淋树脂孔结构与分离效？…

应用性能优良的２－乙基己基膦酸单２－乙基己基酯ＨＥＨ（ＥＨＰ）萃取剂，首次制备了一系列不同孔结构的萃淋树脂，针对难以分离的镧系元素最难分离的镨，钕，研究了孔结构等与分离效能之关系，探寻出最适宜的孔结构，其比表面积Ｓ为２０９ｍ＾２／ｇ，平均孔径为７．７ｎｍ孔体积Ｖｇ０．４０１ｍＬ／ｇ；ＨＥＨ（ＥＨＰ）最适宜量为４６．５％，从而达到最佳分离。     

抗冲共聚聚丙烯及其级分的流变学研究

比较了抗冲共聚聚丙烯(IPC)和等规聚丙烯(iPP)熔体的动态流变行为, 确定了IPC的乙丙无规共聚物(EPR)、乙丙嵌段共聚物(EbP)和丙烯均聚物(HPP)3种级分的熔体动态流变行为. 研究发现, IPC在低频区域表现出偏离经典线性黏弹性理论的行为, 即出现了"第二平台". 经过二甲苯完全溶解的IPC试样的熔体流变行为研究结果表明, IPC分散相的团聚会提高熔体的模量. 对IPC 3种级分的动态流变行为的研究结果表明, 各级分间的动态储能模量(G')及黏度存在明显差异, 这主要是由于分子量和分子链链长的不同所致. EPR和HPP级分在低频区域的流变行为符合经典线性黏弹性理论, 为均相体系特征, 而EbP级分则出现"第二平台", 表现出非均相体系的特征. 对IPC中HPP/EPR共混物的流变行为的进一步研究发现, 当HPP/EPR质量比达到IPC中的比例时即可在低频区域产生"第二平台"; 当将EPR的比例增加至EPR和EbP组分之和时, EPR产生的平台要比IPC更为明显, 表明IPC中HPP与EPR存在的相分离足以使IPC产生"第二平台"现象.     

成核剂对聚丙烯及其共聚物的结晶行为和性能的影响

研究了成核剂1,3:2,4-对二乙基苄叉山梨醇(EDBS)对聚丙烯及其乙烯共聚物的结晶行为和结晶形态的影响,并对其薄膜进行了光学性能的表征.结果表明,添加少量(质量分数0.5%)的成核剂,使聚丙烯样品的结晶温度大大提高,结晶度明显增加.而对于乙烯共聚聚丙烯样品,添加少量(质量分数0.5%)成核剂,不仅使其整体结晶温度大大提高,结晶度增加,而且明显强化了低有序部分的结晶.少量成核剂的加入,使聚丙烯及其共聚物的球晶尺寸明显缩小,薄膜的透光性和雾度显著改善.     

长链支化聚丙烯结晶行为及发泡性能研究

通过广角X射线衍射(WAXD)、示差扫描量热(DSC)和偏光显微镜(POM)研究了长链支化聚丙烯(LCBPP)和线性等规聚丙烯(PP)的结晶行为.WAXD和DSC的结果显示LCBPP样品有利于β结晶,出现了少量β晶.DSC和POM的结果显示在等温结晶过程中长链支化结构起到促进异相成核和细化晶粒的作用,LCBPP样品的结晶温度提高,结晶速度增大,球晶尺寸显著减小.采用间歇釜式超临界二氧化碳发泡法对LCBPP和线性PP样品进行发泡,由于LCBPP结晶温度高,结晶速率更快,有利于泡孔的固化定型,可以提高发泡温度,研究结果表明在相同的发泡压力下LCBPP样品发泡温度窗口较宽,为5 K左右,而线性PP样品的发泡温度窗口较窄,仅为2 K左右,同时在相同的发泡条件下LCBPP样品的发泡倍率较大.     

Comparison between Polymorphic Behaviors of Ziegler-Natta and Metallocene-Made Isotactic Polypropylene: The Role of the Chain Microstructure

An analysis of the polymorphic behavior of samples of isotactic polypropylene (iPP) prepared with heterogeneous Ziegler-Natta catalysts is presented. A comparison with the crystallization properties of iPP samples prepared with a single center homogeneous metallocene catalyst is also shown. Samples of Ziegler-Natta iPP samples, prepared with MgCl₂-supported catalysts, have been fractionated by extraction with boiling solvents. The irregular fraction, insoluble in diethyl ether and soluble in hexane, crystallizes from the melt almost totally in the γ form. The more stereoregular fractions crystallize instead basically in the α form. The relative amount of γ form crystallized from the melt is much lower that that observed in samples of metallocene-made iPP containing comparable amount of defects. While in the metallocene-made iPP the distribution of defects along the chains is random, in Ziegler-Natta iPP samples the majority of defects are segregated in a small fraction of poorly crystallizable macromolecules or in more irregular portions of the chain, so that much longer fully isotactic sequences can be produced, leading to the crystallization of the α form. This analysis allows concluding that some fractions of Ziegler-Natta iPP are characterized by chains with a stereo-block microstructure, consisting in regular isotactic sequences linked to more irregular sequences.     

The Influence of Copolymerization Condition on Rheology,Morphology and Thermal Behavior of Polypropylene Heterophasic Copolymers

In this work, the polypropylene impact copolymers were synthesized by a modified sequential polymerization process. The copolymerization of ethylene and propylene was carried out between two homopolymerization stages at two different pressures and temperatures and the rheology, morphology and thermal properties of reactor alloys were studied. It is found that the ethylene propylene rubber (EPR) content increased up to 32 wt% by increasing the copolymerization time to 20 min. At a fixed copolymerization time of 10 min, the addition of 50 ppm hydrogen (H₂), increased the EPR content from 9.7 to 12.8 wt%. By doubling H₂ concentration, no considerable change in EPR wt% was observed. It is found that the zero shear viscosity of the alloys is significantly under the influence of EPR wt%, not the molecular weight of matrix. The molecular weight of PP matrices determined by rheological data, mildly decreased from 463000 to 458000 g/mol by increasing the copolymerization time from 10 min to 15 min. At high copolymerization time/high H₂ concentration, a melting peak in the differential scanning calorimetry test around 165°C for isotactic PP and also an endothermic peak around 127°C for the block copolymer with long ethylene segments, is observed. The study of interfacial strength by theoretical emulsion models showed that 15 min copolymerization time is optimum considering EPR wt%.     

Structure and Properties of a Polypropylene Containing Random Ethylene Units Modified with a Hydrogenated Hydrocarbon Resin

The system formed by a polypropylene containing random low ethylene content (EP copolymer) of and a hydrogenated hydrocarbon resin (HR) is investigated in order to study the influence of resin (up to 20% in wt) on properties of blends and derived films. The random EP copolymer used is MoplenEP2C37F and the resin is MBG273 of Hercules Chemical Co. DSC and DMTA analyses of the blends show increase of Tg with resin content indicating that the two components are compatible in the amorphous phase. WAXD spectra show that MBG273 influences slightly the crystalline structure of EP copolymer. In fact the diffractograms of the EP copolymer and 95/5 blend present, beside the predominant peak of α form, also a small span denoting presence of γ form; this span is not detectable on spectra of 90/10 and 80/20 samples. The crystallization during the cooling is found to be only lightly delayed by the HR: in fact, only 4 degrees is the difference between the Tc values of EP copolymer and 80/20 blend. Stress-strain test performed at room temperature show that MBG273 induces increase of Young's modulus and small decrease of elongation at break as function of resin content. An important effect is on the water vapour permeability, which decreases with resin content. The permeability and tensile properties are related to the increase of the glass transition with the addition of MBG273 that transforms gradually the amorphous of the material from rubbery to glassy. The results reported in this work indicate that an addition of 5–10% of MBG273 changes favourably properties, as Young' modulus and water vapour permeability, of an EP copolymer designed for the production of films for packaging application.     

丙烯酸及其接枝物对纳米CaCO3/PP结晶与熔融行为的影响

制备了丙烯酸(AA)及其接枝聚丙烯(PP—g-AA)改性的纳米CaC03／PP复合材料。用DSC研究了纳米CaCO3对PP、PP-g-A和AA对纳米CaCO3／PP中PP结晶与熔融行为的影响。结果表明：随纳米CaCO3用量增加，PP结晶与熔融温度提高，PP—g—AA加入使PP结晶温度进一步提高，PP的结晶温度也随从用量增加而提高；在过氧化二异丙苯(DCP)存在下，少量AA能明显提高PP的结晶温度，但增加从用量对结晶温度的影响较小；WAXD证实纳米CaCO3／PP复合材料中存在β晶。