PP/HDPE/EPDM共混物的研究

研究了聚丙烯（ＰＰ）、高密度聚乙烯（ＨＤＰＥ）和ＥＰＤＭ共混制备非交联型ＰＰ／ＨＤＰＥ／ＥＰＤＭ三元共混物。结果表明，当共混比ＰＰ／ＨＤＰＥ／ＥＰＤＭ＝６５／２０／１５，活性碳酸钙为３０份，ＨＤＰＥ品种为ＧＦ７７５０，采用先把ＨＤＰＥ和ＥＰＤＭ预制成混料再与ＰＰ共混的方法，可得到性能良好的ＰＰ／ＨＤＰＥ／ＥＰＤＭ共混物。     

动态硫化EPDM／PP热塑性弹性体的流变性能

研究了共混工艺条件，橡塑比，橡胶相交联速率及交联密度，ＰＰ的熔体流动指数对ＥＰＤＭ／ＰＰ共混物流变性能的影响。结果表明，当降低ＥＰＤＭ含量，减小ＥＰＤＭ相粒径时，共混物的流动性增强。共混物发生熔体破裂是由于ＥＰＤＭ和ＰＰ相在挤出后两相大分子的弛豫行为不同所致。提高ＰＰ含量，降低了ＥＰＤＭ相粒径，同时ＥＰＤＭ分散相具有适宜的交联密度时，可以得到挤出表面光滑的共混物。     

PP／PE共混物熔体流动性的研究

应用熔融流动速率仪考察了ＰＰ／ＰＥ共混物熔体的流动特性及其影响因素，发现，共混物的熔融流动速率（ＭＦＲ）随着ＰＥ的重量百分含量的增加而增大，两者之间的关系大致上符合对数混合法则，而纯组分的ＭＦＲ对温度的依赖性则近似地服从指数律。     

PP/LDPE/EPDM三元共混物流变性能的研究

本文研究了硫化剂体系、炭黑、滑石粉对ＰＰ／ＬＤＰＥ／ＨＤＰＥ三元共混物流变性能的影响。结果表明，过氧化二异丙苯（ＤＣＰ）和硫磺（Ｓ）的配比对共混物熔体中粘度有明显影响。当ＤＣＰ／Ｓ为０８／０３时，共混物的熔体粘度相对较低；当ＤＣＰ／Ｓ为０３／０３时，粘度相对较高。炭黑和滑石粉配合使用比单独使用时更不利于共混物熔体的流动。     

PE,EVA及LDPE／EVA共混物辐照特性的研究

本文在对乙烯－醋酸乙烯共聚物（ＥＶＡ）和聚乙烯（ＰＥ），低密度聚乙烯（ＬＤＰＥ）、线性低密度聚乙烯（ＬＬＤＰＥ）及高密度聚乙烯（ＨＤＰＥ）在＾６０Ｃｏγ射线辐照前后的性能进行比较的基础上，着重研究了ＬＤＰＥ／ＥＶＡ共混物在＾６０Ｃｏγ射线辐照前后的拉伸性能和交联度的变化，以及ＥＶＡ添加量、ＶＡ含量及熔体流动速率（ＭＦＲ）对这些变化的影响。     

EPDM/聚烯烃共混型热塑性弹性体的研究

制备ＥＰＤＭ／聚烯烃简单共混型热塑性弹性体。研究了聚合物种类、橡塑比、二元和三元共混对共混物力学性能的影响。结果表明，部分结晶性ＥＰＤＭ共混物的力学性能比无定形ＥＰＤＭ共混物好，部分结晶性ＥＰＤＭ与ＬＤＰＥ（低密度聚乙烯）共混物的拉伸强度大于两者的加和值，而其它二元共混物的拉伸强度均低于两共混单元的加和值；用ＬＤＰＥ部分替代ＰＰ，或用氯磺化聚乙烯（ＣＳＭ）部分替代结晶性ＥＰＤＭ进行三元共混，能改善部分结晶性ＥＰＤＭ／ＰＰ共混物的某些性能。     

二烯基双酚A醚接枝低密度聚乙烯的制备

介绍了二烯基双酚Ａ醚（ＤＢＡＥ）与低密度聚乙烯（ＬＤＰＥ）在Ｈａａｋｅ转矩流变仪的混炼器中进行熔融接枝反应,采用红外光谱（ＦＴ－ＩＲ）分析证实了接枝共聚物（ＬＤＰＥ－ｇ－ＤＢＡＥ）并通过对ＬＤＰＥ－ｇ－ＤＢＡＥ的接枝率（ＧＲ）和熔体流动速率（ＭＦＲ）测试,考察了制备条件（反应温度,引发剂用量和ＤＢＡＥ用量）对接枝反应及产物的影响,ＬＤＰＥ－ｇ－ＤＢＡＥ的最终目的是作为高密度聚乙烯／聚碳酸酯共混体系     

国外合成树脂及塑料文摘

ＮＲ和ＥＰＤＭ对ＨＤＰＥ／ＰＰ共混物流动行为的影响／Ｈｅｒｎａｎｄｅｚ Ｓａｎｃｈｅｚ,Ｆ．（墨西哥）／Ｐｏｌｙｍ．Ｂｕｌｌ．（Ｂｅｒｌｉｎ） 1999,42（4）：481～ 488（英）。在不同共混比和剪切速率下,作者研究了聚丙烯（ＰＰ）和高密度聚乙烯（ＨＤＰＥ）与一种弹性体（天然的或乙烯—丙烯—二烯共聚物）的三元共混物的熔体流变性能。给出了流变仪测量结果,并讨论了共混物组成对流变性能的影响。根据非牛顿流体指数定律讨论了剪切速率对粘流曲线的影响。聚烯烃共混物中加入弹性体使粘度—组成曲线发生了变化。根据共混物可…     

聚丙烯／三元乙现橡胶共混体系的研究

研究了三元乙丙橡胶（ＥＰＤＭ）对聚丙烯（ＰＰ）结晶行为的影响以及ＰＰ／ＥＰＤＭ共混物的形态与性能的关系。ＥＰＤＭ对ＰＰ的熔点、结晶温度无明显影响，ＰＰ／ＥＰＤＭ共混物的结晶度随ＥＰＤＭ组份含量的增加而降低，适量的ＥＰＤＭ可使ＰＰ的晶体尺寸减小，晶胞参数与组份比无关。当ＥＰＤＭ用量为３０％￣４０％时，共混物的冲击强度迅速提高。     

稀土偶联剂（REC）对PP／Mg（OH）2体系性能的影响

研究了稀土偶联剂（ＲＥＣ）处理对ＰＰ／氢氧化镁（Ｍｇ（ＯＨ）２）体系的燃烧性能、流动性能、力学性能及老化性能的影响。未经处理的Ｍｇ（ＯＨ）２在填充量超过５０％时,ＰＰ／Ｍｇ（ＯＨ）２体系的ＯＩ≥２８．５,但这时冲击强度不足纯ＰＰ的３０％,熔体流动速率低于０．６ｇ／１０ｍｉｎ;而填料用２．５％（重量）ＲＥＣ处理后,填充量为５０％的体系冲击强度接近纯ＰＰ,ＭＦＲ达２．８ｇ／１０ｍｉｎ;ＲＥＣ对Ｍｇ（Ｏ     

PP/LDPE blends produced by reactive processing. I. Grafting efficiency and rheological and high‐elastic properties of [PP/LDPE]‐g‐IA melts

Itaconic acid (IA) was grafted onto polypropylene/low‐density polyethylene (PP/LDPE) blends. The ratio of polymeric components was varied from 100 : 0 to 0 : 100. The effect of the variation in the ratios of the components on grafting efficiency and concomitant side processes was studied. Grafting of IA (1 wt %) was initiated by 2,5‐dimethyl‐2,5‐di(tert‐butyl peroxy)‐hexane (0.3 wt %) and was carried out in an extruder reactor equipped with a dynamic mixer. An increase in the PP content of the blend led to a lower yield of the grafted product. With low concentrations of LDPE in the blend (up to 25 wt %), grafting efficiency was observed to increase, and this increase was greater in comparison with the additive rule. Between 25 and 99 wt % of LDPE in the blend, grafting efficiency rose monotonically with LDPE concentration. At or below an LDPE content of 25 wt %, the melt flow index (MFI) of [PP/LDPE]‐g‐IA would increase unlike with PP‐g‐IA systems. But a small quantity of PP (below 25 wt %) in the [PP/LDPE]‐g‐IA blends would result in a decreased MFI unlike with LDPE‐g‐IA. The dependence of swell index and melt strength on the ratio of polymeric components in [PP/LDPE]‐g‐IA blends also was investigated. ©2006 Wiley Periodicals, Inc. J Appl Polym Sci 102: 5095–5104, 2006     

PETA熔融接枝PP/LDPE共混物的研究

研究了季戊四醇三丙烯酸酯熔融接枝PP／LDPE共混物体系中，各因素对产物熔体质量流动速率和熔体强度的影响，并对产物拉伸粘度和化学接枝情况等进行了测试及表征，实验结果表明，引发剂用量较低，单体用量较高时，产物的熔体质量流动速率小,熔体强度较高，拉伸粘度较大，且在拉伸过程中，产生了应变硬化效应；随着单体用量的增加，接枝率会有所上升。     

Structure and properties of high melt strength polypropylene prepared by combined method of blending and crosslinking

High melt strength polypropylene (HMSPP) was prepared by in situ heat induction reaction, in which pure polypropylene (PP) powders without any additives was used as basic resin, and low density polyethylene (LDPE) and trimethylolpropane triacrylate (TMPTA) were added as blending resin and as crosslinking agent, respectively. Microstructure of the obtained HMSPP (PP/LDPE/TMPTA blends) was characterized by FTIR, Wide‐angle X‐ray diffraction (WAXD), and testing of gel content. The effect of LDPE content on melt strength and melt flow rate of HMSPP were investigated. When the content of LDPE was 40 wt %, the melt strength of the HMSPP was above 16 CN, which was much higher than those of pure PP powder (2.6 CN) and PP/LDPE blends without TMPTA (6.1 CN). Moreover, thermal behavior and mechanical properties of the HMSPP were also investigated. The results showed that the thermal stability and impact strength of HMSPP were greatly improved. In addition, HMSPP possessed good processing performance and good foaming properties. The foams produced by HMSPP showed uniform, closed, and independent cells. © 2010 Wiley Periodicals, Inc. J Appl Polym Sci, 2010     

高效催化剂对聚丙烯树脂分子量、分子量分布及纺丝性能的影响

燕山石化公司化纤地毯厂在采用高效催化剂前、后生产的新、老3702聚丙烯树脂(熔体流动指数MFI均为12—15)纺丝时,纺丝温度和纤维性能发生了显著变化。研究结果表明,这种差别主要是由于它们的分子量分布不同所引起的。新3702由于分子量分布较窄,与老3702聚丙烯树脂相比,即使在相同的MFI条件下,粘均分子量和零切变粘度也是较低的,因而纺丝温度也低。在工业生产中表明,除测定MFI外还应测定聚丙烯熔体在230℃下的零切变速率粘度,这对指导生产,能提供可靠依据。采用高效催化剂生产MFI为7—11的新3602牌号聚丙烯在燕山石化公司化纤地毯厂试纺中,废丝率下降了7%以上,成丝质量得到了提高。     

Studies on binary and ternary blends of polypropylene with ABS and LDPE. I. Melt rheological behavior

Studies are presented on melt rheological properties of binary blend of polypropylene (PP) and acrylonitrile–butadiene–styrene terpolymer (ABS), and ternary blend of PP, ABS, and low-den-sity polyethylene (LDPE). Data obtained in capillary rheometer are presented to describe the effect of blending ratio, shear stress, and shear rate on flow properties, melt viscosity, and melt elasticity. At a blend composition corresponding to 10 wt % ABS content, both binary and ternary blends show maximum in melt viscosity accompanied by minimum in melt elasticity. Pseudoplasticity of the melt decreases with increasing ABS content. In ternary blends, LDPE facilitates the flow at low LDPE contents and obstructs the flow at high LDPE contents. Scanning electron microscopic studies are also presented to illustrate the state of dispersion and its variation with blend composition.     

Melt strength of polypropylene: Its relevance to thermoforming

The melt strength of homopolymer, copolymer and high melt strength (HMS) grades of polypropylene (PP) was measured to assess the sagging resistance of PP for thermoforming applications. Acrylonitrile-butadiene-styrene (ABS), which can be easily processed during thermoforming, was also studied in this work. A polymer with high melt strength is considered to have a better sagging resistance. The melt strength measurements were carried out using a Gottfert “Rheotens” melt strength tester. The melt strength of the polymers increased with decreasing temperature and increasing extrusion rate. ABS generally had the highest melt strength in the low extrusion temperature region approaching the thermoforming region, indicating that it has a good sagging resistance during thermoforming. The HMS PP had significantly higher melt strength than conventional PP grades; therefore HMS PP is expected to have an improved sagging resistance. For conventional PP, melt strength was higher for the lower melt flow index (MFI) grades. A sharp increase in the melt strength was observed for conventional PP at low extrusion temperature, probably due to flow-induced crystallization of the PP. These results indicate that to minimise the sagging problem with conventional PP, low MFI grades should be used and thermoforming should be performed at temperatures close to the melting point of PP.     

Melt Rheological Behavior and Thermal Properties of Low-Density Polyethylene/Palm Kernel Shell Composites: Effect of Polyethylene Acrylic Acid

The melt flow behavior and thermal properties of low-density polyethylene (LDPE)/palm kernel shell (PKS) composites were studied. Polyethylene acrylic acid (PEAA) was used as a compatibilizer in the composites. The results showed that the increasing of PKS loading had decreased MFI values of LDPE/PKS composites. The presence of PEAA increased the MFI values of the LDPE/PKS composites. The apparent viscosity of the composites was found to exhibit a linear relationship with the reciprocal of the temperature. Thermal properties showed that higher filler loading tended to reduce the onset temperature as the PKS possessed lower degradation temperature compared to the LDPE. The presence of the PKS in the LDPE polymeric matrix improved the thermal stability of the composites. The addition of PEAA into the composites provided better interfacial bonding between the LDPE matrix and PKS filler, while higher onset temperature and lower total weight loss were observed of LDPE/PKS composites. The activation energy of the LDPE/PKS composites was increased with increasing filler loading. At similar filler loading, the presence of PEAA increased the activation energy of the LDPE/PKS composites.     

Thermal degradation of polypropylene in a capillary rheometer

Melt viscosity of a polypropylene (PP) resin was measured in a capillary rheometer between 220 and 260°C. The melt viscosity showed a power law behavior with strong shear rate dependence. The effects of temperature and shear rate on the degradation were studied in the rheometer by heating at 260 and 280°C, and extruding at shear rates up to 10000 sec ?1 . Melt flow index (MFI) of samples after shearing and heating treatment was measured to characterize the molecular weight change. An increase in MFI was found for PP sheared at high temperature. Heating for longer time also increased MFI. Increase of shear rate had a small effect on increasing MFI at 260°C but produced a larger effect at 280°C. A constant increment in MFI was observed in PP subjected to high temperature processing and was attributed to degradation due to oxygenated products.     

通过反应挤出提高聚丙烯的熔体强度

利用反应挤出技术研究了不同反应物对聚丙烯(PP)熔体强度的影响。考察了不同用量的低密度聚乙烯(LDPE)、乙烯-乙酸乙烯酯共聚物(EVA)、季戊四醇三丙烯酸酯(PETA)、二乙烯基苯(DVB)以及上述物质的混合物在过氧化二异丙苯的引发下对PP熔体强度、熔体流动速率、熔垂的影响。结果表明,LDPE、EVA的加入对产物熔体强度的影响有限,PFTA也只能使其提高1倍左右;而DVB的加入可使产物的熔体强度显著提高,仅加入1％就可使熔体强度提高20倍,熔垂实验也证明了这一点;几种反应物混合使用效果不如单独使用好。     

A comparative study on the electrical and mechanical behaviour of multi‐walled carbon nanotube composites prepared by diluting a masterbatch with various types of polypropylenes

Polypropylene (PP) nanocomposites with multi‐walled carbon nanotubes (CNT) were produced by a small‐scale masterbatch melt dilution technique using five PP differing in melt flow index (MFI) and degree of maleination. PP used in a masterbatch has MFI = 12 (PP₁₂), the others used PP which have MFI = 2 or MFI = 8. The state of CNT dispersion as assessed by melt rheological and morphological investigations indicated a better dispersion when using unmodified PP with MFI = 8 (PP₈) and the masterbatch's PP₁₂. Electrical conductivity results showed nanotube percolation at contents between 1.1 and 2.0 vol %, whereas lower values were obtained for the matrices with the best dispersion, i.e., PP₈ and PP₁₂. The dependencies of the relative Young's modulus on the CNT content showed that the maleinization improved the interfacial interactions between the components, especially in the case of maleated PP with MFI = 8 (PP‐MA₈), but the better dispersion was prevented by the incompatibility between polar groups of PP‐MA and the nonpolar origin masterbatch PP₁₂. © 2009 Wiley Periodicals, Inc. J Appl Polym Sci, 2009