低乙烯含量聚丙烯共聚物结晶成核剂研究

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。     

提高聚丙烯熔体强度的研究进展

熔融状态下聚丙烯的熔体强度对其发泡效果有着举足轻重的作用,高熔体强度有利于聚丙烯的热成型,从而得到优质的发泡材料。本文综述了聚丙烯泡沫塑料的特点、性能及聚丙烯熔体强度较低对发泡过程的影响,分别从共混改性法、交联改性法、填充改性法这三种提高聚丙烯发泡性能的途径上对目前国内外致力于聚丙烯熔体强度的研究进展进行了重点介绍,指出聚丙烯化学交联改性与共混改性、共聚改性等方法并用乃是改善聚丙烯发泡性能的重点及热点。     

动态硫化EPDM／PP共混体系中PP相的结晶度及晶体结构的研究

研究了动态硫化ＥＰＤＭ／ＰＰ共混物中ＰＰ相的结晶度及晶体结构,同时讨论了制备工艺条件以共混物中ＰＰ相的结晶度和晶体结构的影响。结果表明：在动态硫化ＥＰＤＭ／ＰＰ共混物中,硫化的ＥＰＤＭ的分子键没有穿入ＰＰ的晶区,ＰＰ的结晶度随ＥＰＤＭ含量的增加而下降。提高共混温度,加入软化剂或碳黑均使共混物中ＰＰ的结晶度降低,共混时间１５ｍｉｎ时,共混物中ＰＰ相的结晶度最低,但ＰＰ的晶格不受制备工艺条件的影响。     

滑动接枝聚合物对聚乳酸的增韧改性

通过熔融共混的方法,在聚乳酸(PLA)中加入不同质量分数的滑动接枝聚合物(SGC),对其进行增韧改性。使用扫描电子显微镜(SEM)用来表征PLA和SGC共混物的相结构,冲击断裂样条断面SEM考察聚合物的增韧机理,差示扫描量热分析(DSC)和广角X-射线衍射(XRD)用来考察PLA以及PLA/SGC共混物的热性能和结晶性能。结果表明:PLA和SGC粒子呈现典型的"海-岛"结构,SGC粒子尺寸为0.8μm~4.1μm。含20%(wt)SGC的PLA/SGC共混物的断裂伸长率和缺口冲击强度较纯PLA分别提高了6倍和2倍,说明SGC能够有效地对PLA进行增韧改性。体外细胞毒性测试表明,PLA/SGC共混物的细胞毒性等级为1级,为无毒材料,因此可应用在生物医学领域。     

含混杂活性端基新型多官能团齐聚物的结构与性能

通过控制4,4'-二氨基二苯甲烷环氧树脂(TGDDM)和丙烯酸(AA)的摩尔比(1∶2)合成了化学共混的含混杂活性端基的多官能团齐聚物MVEO-2,直接将多官能团环氧树脂TGDDM与多官能团环氧乙烯基树脂MVER通过物理共混得到聚合物共混物MVEOmix.研究了化学共混和物理共混对含混杂活性端基多官能团齐聚物的结构、性能和形态的影响.红外光谱(FTIR)和核磁共振谱(1H NMR)表明,MVEO-2和MVEOmix具有相同的结构组成.凝胶渗透色谱(GPC)分析表明MVEOmix具有双峰结构且分子量分布较窄,而MVEO-2具有多峰结构且分子量分布较宽.热重分析(TGA)和动态热机械分析(DMA)表明,MVEO-2的热稳定性比MVEOmix更高.MVEO-2的强度和韧性比MVEOmix明显提高,弯曲强度提高17%,拉伸强度提高38%,断裂伸长率提高35%,冲击强度提高24%.扫描电镜结果表明化学共混形成了更均匀紧密的互穿聚合物网络结构.     

轻质碳酸钙／聚丙烯共混物中聚丙烯β－晶的成核结晶研究

用Ｘ射线衍射和差示扫描量热法研究了轻质碳酸钙／聚丙烯共混物（Ｌ－ＣａＣＯ３／ＰＰ）中ＰＰβ－晶的成核结晶现象，发现ＰＰβ－晶的成核结晶与ＰＰ的来源和Ｌ－ＣａＣＯ３在共混物中的含量有关，铝酸酯偶联剂对共混体系的ＰＰβ－晶的成核结晶有显著的增强作用．分析认为共混物中ＰＰβ－晶的成核结晶现象是ＰＰ中存在的某些杂质（主要是催化剂残余物）与Ｌ－ＣａＣＯ３组成的复合成核剂作用的结果，而铝酸酯是这种复合成核剂的一种促进剂．     

含原位聚合物核壳粒子聚丙烯共混物的流变学研究

制备了含原位聚合物核壳粒子的聚丙烯/乙丙橡胶/高密度聚乙烯(PP/EPR/HDPE)共混物,并通过动态流变方法对其熔体结构稳定性进行了研究.动态时间扫描结果表明,PP/EPR/HDPE共混物具有较好的热稳定性.动态频率扫描结果表明,当EPR含量较低时,共混物中聚合物核壳粒子分散相的存在导致体系的长时松弛行为更加显著.当熔体结构在大应变下遭到破坏后,含核壳粒子分散相的共混物具有比普通PP/EPR共混物更快的结构回复速率,且结构回复速率随着核壳粒子的尺寸增大而加快.通过增大普通PP/EPR体系的EPR含量使其橡胶粒子尺寸与三元共混物中原位聚合物核壳粒子尺寸接近时,两者呈现类似的流变行为,这表明PP/EPR/HDPE体系的熔体结构稳定性源于核壳粒子结构导致的分散相尺寸增大的作用.     

多组份聚丙烯共混物的微观结构及共混纤维的染色性能

研究了PP GPET、PP GPET EVA、PP GPET EVA PS共混物的结构和性能 .研究表明 ,PP GPET体系属于非相容共混体系 ,共混物呈典型海岛型两相结构 ,EVA的加入可以改善体系相容性 ;共混物的结晶度比纯聚丙烯低 ,PS有增大共混物晶粒尺寸的作用 ;改性聚丙烯纤维的染色性有明显提高 ,用分散染料E EX可染成深蓝色     

相界面张力对两相聚合物熔体中分散相粒子粗化速度的影响研究

多相高分子共混物熔体中微区的发展机理,决定着体系的最终相结构．所以研究共混物熔体或溶液中的微区聚结机理已越来越显得重要和必要．作者先前的研究工作表明［１～６］,通过简单共混得到的均匀共混体系（如ＰＰ／ＥＶＡｃ）,在一定的退火热处理条件下,会自组织形成梯度相结构,即分散相粒子尺寸及其浓度从样品中心到表面逐渐增大．作者认为,这一结构的形成主要与基板对共混体系粗化过程的影响作用有关．初步认为是由于体系分散相聚结过程中,共混组分对基板的选择性浸润析出而导致了这种特殊的结构,亦可称为基板诱导相结构的形成．…     

聚丙烯催化合金的结晶行为研究

近 1 0年来 ,Montell公司发展的聚丙烯催化合金 (Polypropylene catalloy,PP-c)技术受到广泛关注 .该技术采用具有特定结构的催化剂粒子 ,在适当的聚合条件下 ,得到具有一定大小、形状及内部形貌的聚合物粒子 .由 PP-c技术获得的材料性能可以在非常宽的范围内进行调节 ,其呈现出的高强度可以与工程塑料相比拟 ,柔性可以与聚乙烯相媲美 [1] .结晶性聚合物的结晶度、球晶尺寸等因素对其机械性能 ,尤其是冲击韧性具有重要的影响[2 ,3] .改性聚丙烯的结晶行为及其与物理机械性能之间的关系一直备受关注 .对于纯聚丙烯、聚丙烯与橡胶的共混物…     

HDPE/PP共混物在振动剪切作用下的力学性能与形态控制

采用高剪切引起的相容与振动剪切保压方式控制共混物的形态,结果表明,当共混体系中HDPE/PP为92/8时的试样拉伸强度为97.1MPa,而80/20试样的缺口冲击强度为45.5kJ/m₂,较静态试样分别提高4.3倍和9.5倍.采用振动剪切注射技术可以针对某一组分获得高强度、高韧性的HDPE/PP共混制件.     

Enhanced mechanics in injection molded isotactic polypropylene/polypropylene random copolymer blends via introducing network-like crystal structure

The crystallization behavior, rheological behavior, mechanical properties and microstructures of injection molded isotactic polypropylene(i PP), polypropylene random copolymer(co-PP) and i PP/co-PP blends were investigated. Differential scanning calorimetry(DSC) and dynamic rheological analysis illustrated that i PP and co-PP were compatible in the blends and co-PP uniformly dispersed in the i PP phase. Polarizing optical microscope(POM) was adopted to observe the crystal size and morphology evolution. The results of mechanical properties and scanning electron microscopy(SEM) indicated that the crystal size of i PP in i PP/co-PP blends(10 wt% co-PP + 90 wt% i PP and 30 wt% co-PP + 70 wt% i PP) radically decreased after the incorporation of co-PP. During crystallization, the molecular chain segments of co-PP could penetrate i PP spherulites and form a network-like crystalline structure. The network-like crystal structure could effectively transmit stress and consume more energy to overcome intermolecular forces to resist stretching. In this way, the strength would improve to a certain degree. The impact fracture mechanism of i PP/co-PP blends is quasi ductile fracture by multiple crazes. Our work discovered that the blends containing 10 wt% and 30 wt% of co-PP exhibited prominent toughness and reinforcement.     

磨盘碾磨聚丙烯粒度分布与接枝率的研究

用分形几何方法研究了磨盘碾磨中聚丙烯 (PP)的粉碎和固相力化学接枝 .用粒度分析仪测定经磨盘碾磨聚丙烯的粒度分布 ,用分形理论处理实验数据 .结果表明 ,PP粒度分布存在无标度区 ,具有线性分形特征 ,磨盘碾磨对PP粒子分形行为有较大影响 ,聚丙烯粒度分布的分维值随碾磨次数的增加而增大 .磨盘碾磨中聚丙烯固相力化学接枝的实验结果表明 ,N 羟甲基丙烯酰胺在聚丙烯表面上的接枝率亦随碾磨次数增加而增加 ,即与聚丙烯粒度分布的分维值相关 .因此 ,可用分数维定量描述聚丙烯粒子在磨盘碾磨中的粉碎规律 ,揭示了N 羟甲基丙烯酰胺在聚丙烯表面固相力化学接枝反应的本质 .     

Mechanical properties and morphological structures of short glass fiber reinforced PP/EPDM composite

The mechanical properties and crystal morphological structures of short glass fiber (SGF) reinforced dynamically photo-irradiated polypropylene (PP)/ethylene-propylene-diene terpolymer (EPDM) composites were studied by mechanical tests, wide-angle X-ray diffraction (WAXD), optical microscopy, scanning electron microscopy (SEM), differential scanning calorimetry (DSC), and thermogravimetric analyzer (TGA). The mechanical properties of PP/EPDM composites, especially the tensile strength were greatly strengthened by dynamically photo-irradiation and the incorporation of SGF. The results from the WAXD, SEM, DSC, and TGA measurements reveal: (i) the formation of β-type crystal of PP in the PP/EPDM/SGF composite; (ii) the fiber length in dynamically photo-irradiated PP/EPDM/SGF composites are general longer than that in corresponding unirradiated samples. The size of EPDM phase in the photo-irradiated composites reduces obviously whereas the droplet number increases; (iii) photo-irradiation improves the interface adhesion between SGF and polymer matrix; (iv) the melting and crystallization temperatures of the photo-irradiated composites are not affected greatly by increasing the SGF content; (v) the thermal analysis results show that the incorporation of SGF into PP/EPDM plays an important role for increasing its thermal stability.     

多单体熔融接枝聚丙烯的微相分离结构

用熔融接枝方法制备了一系列不同接枝率的GMA(甲基丙烯酸缩水甘油酯)/St(苯乙烯)多单体接枝聚丙烯[PP-g-(GMA-co-St)],基体聚丙烯包括均聚聚丙烯和共聚聚丙烯(乙烯的摩尔分数分别是6.0%,12%,33%).接枝聚丙烯经过分离提纯后,用四氧化钌(RuO₄)进行染色,然后用透射电子显微镜(TEM)观察其微观形态.发现在接枝聚丙烯中形成了长程有序的、球状的微相分离结构,这种在分子量和分子结构都是多分散体系中形成的微相分离结构尚未见报道.同时,研究了基体聚丙烯中乙烯链段的含量以及接枝率对于接枝聚丙烯微观形态的影响.     

具有包藏结构的三元聚丙烯纳米复合材料结构与性能关系的研究

制备了一种新型聚丙烯 丁苯橡胶 纳米碳酸钙三元纳米复合材料 .研究结果显示 ,复合材料中的大多数纳米碳酸钙粒子被包藏在丁苯橡胶中 ,并与之共同形成分散于聚丙烯树脂中的分散相 ,这种聚丙烯纳米复合材料具有高刚性、高韧性、高耐热性和高的结晶速率 .系统研究了成核剂苯甲酸钠的加入和纳米碳酸钙的用量对该类纳米复合材料相态结构、结晶形态和结晶动力学的影响 ,以及具有包藏结构的分散相粒径和PP中β晶含量对材料性能的影响 .结果表明 ,苯甲酸钠的加入和纳米碳酸钙用量的提高均可使体系中分散相粒径减小 ,结晶速率加快 ,进而使材料的韧性、刚性和耐热性提高 .     

Dynamically Photocrosslinking of Polypropylene／EPDM Blends as a Thermoplastic Elastomer

The mechanical properties and the crystal morphological structures of the dynamically photocrosslinked polypropylene (PP)/ethylene-propylene-diene terpolymer (EPDM) blends have been studied by means of mechanical tests, wide-angle X-ray diffraction(WAXD), and differential scanning calorimetry(DSC). The dynamically photocrosslinking of the PP/EPDM blends can improve the mechanical properties considerably, especially the notched Izod impact strength at low temperatures. The data obtained from the mechanical tests show that the notched Izod impact strength of the dynamically photocrosslinked sample with 30% EPDM at -20℃ is about six times that of the uncrosslinked sample with the same EPDM component. The results from the gel content, the results of WAXD, and the DSC measurements reveal the enhanced mechanism of the impact strength for the dynamically photocrosslinked PP/EPDM blends as follows: (1) There exists the crosslinking of the EPDM phase in the photocrosslinked PP/EPDM blends ; (2) The β-type crystal structureof PP is formed and the content of α-type crystal decreases with increasing the EPDM component; (3) The graft copolymer of PP-g-EPDM is formed at the interface between the PP and EPDM components. All the above changes of the crystal morphological structures are favorable for increasing the compatibility and enhancing the toughness of the PP/EPDM blends at low temperatures.     

A new method combining modification of montmorillonite and crystal regulation to enhance the mechanical properties of polypropylene

This study focused on montmorillonite modification and crystal structure regulation, to prepare polypropylene/montmorillonite composites with high stiffness and toughness simultaneously. A kind of organic montmorillonite was prepared successfully through a new and simple method, which was introducing Fe³⁺ and stearic acid into interlamination of montmorillonite. The maximum interlayer spacing of organic montmorillonite could be expanded from 1.25 nm to 4.66 nm, and the organic montmorillonite formed an intercalated structure in matrix during melting process. The production of β crystal induced by TMB-5 could solve the problem of embrittlement. The reinforcing effect of montmorillonite combined with toughening of TMB-5 was expected to endow composite with balanced stiffness and toughness, presenting improvement simultaneous in the tensile modulus, flexural modulus and impact strength by 21.0%, 31.4%, 49.6% respectively compared to PP. This paper provided a new and facile method in modification of MMT and a strategy to optimize overall mechanical performance of nanocomposite.     

The influence of KH-550 on properties of ammonium polyphosphate and polypropylene flame retardant composites

Ammonium polyphosphate (APP)/polypropylene (PP) composites were prepared by melt blending and extrusion in a twin-screw extruder. APP was first modified by a silane coupling agent KH-550 then added to polypropylene. The surface modification of APP by the coupling agent decreased its water solubility and its interface compatibility with the PP matrix. Limiting oxygen index (LOI) and thermogravimetric analysis (TGA) were used to characterize the flame retardant property and the thermal stability of the composites. The addition of APP improved the flame retardancy of PP remarkably. The crystal structures of APP/PP composites were characterized by X-ray diffraction (XRD). The results indicated that β-crystal phase PP may be formed. The structures and morphologies of APP, KH-550/APP and APP/PP composites were characterized by field-emission scanning electron microscope (FESEM). The mechanical property tests showed good mechanical properties of composite materials. Compared with unmodified one, the impact strength, tensile strength and elongation of modified APP/PP were all improved.     

增容剂对聚对苯二甲酸乙二酯/聚丙烯共混体系结构流变学的影响

采用马来酸酐接枝聚丙烯(PP-g-MAH)对聚丙烯/聚对苯二甲酸乙二酯(PP/PET)共混体系进行增容,研究了增容前后复合体系的相形态和流变行为的变化.结果表明,共混体系中当PP组分为分散相时,增容剂能够显著减小PP液滴尺寸,使其形状松弛时间减小,变形与破裂的剪切敏感性降低;当共混体系两组分配比处于临界相反转点周围时,增容剂则会导致其内部部分双连续与“海-岛”结构共存的复杂相形态消失,低频区模量频率依赖性的增加表明体系内部界面结合程度的增加;而当共混体系中的PET组分为分散相时,增容剂的引入对体系结构流变学影响较小,表明增容效果不大.