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PP/EPDM-g-MAH/TPU共混物流变行为的研究 总被引:8,自引:0,他引:8
以EPDM g MAH为增容剂 ,采用熔融共混技术制备了热塑性聚氨酯弹性体 (TPU)增韧聚丙烯 (PP)材料 ,研究了PP/EPDM g MAH/TPU共混物的流变行为 ,重点讨论了增容剂EPDM g MAH对共混物流变行为的影响。结果表明 :共混物熔体的非牛顿指数n <1,且随EPDM g MAH用量的增加而减小 ,表观粘度随剪切速率和剪切应力的增大而降低 ,熔体符合假塑性流体的流动规律 ;温度升高 ,表观粘度降低 ;随着EPDM g MAH用量的增加 ,共混物的表观粘度升高 ,粘流活化能有所减小 相似文献
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用毛细管流变仪对以马来酸酐接枝聚丙烯(PP-g-MAH)为相容剂的聚丙烯/高密度聚乙烯(PP/HDPE)共混体系的流变性能进行研究。研究发现,PP/HDPE共混体系属于假塑性流体;随着剪切速率的增加,表观黏度下降;PP-g-MAH的加入降低了共混体系的表观黏度;HDPE与PP的非牛顿指数在低剪切速率区与适宜温度下适用于幂律方程的经验公式;HDPE与PP共混后,HDPE含量越低,体系出现壁面滑移的临界剪切速率越高,可加工性能越好。 相似文献
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The structure and properties of polyolefin blends of ethylene–propylene–diene terpolymer (EPDM) and polypropylene were studied. Blends were prepared in a laboratory internal mixer where EPDM was cured with PP under shear with dicumyl peroxide (DCP) at different shear conditions (blend–cure). Blends were also prepared for comparison from EPDM which were dynamically cured in the absence of PP and blended later (cure–blend). The effect of DCP concentration, intensity of the shear mixing, and rubber/plastic composition were studied. In blend–cure, the melt viscosity increased with increasing DCP concentration in blends of 75% EPDM and 25% PP, but it decreased with increasing DCP concentration in blends of 75% PP and 25% EPDM. In cure–blend, however, the melt viscosity increased with increasing DCP concentration for all compositions. The melt viscosity decreased with increasing intensity of the shear mixing presumably due to the formation of the smaller segregated microdomain of the crosslinked EPDM gels in both blend–cure and cure–blend materials. The crystallization rate was higher in EPDM/PP blends than in PP homopolymer. The crystallization rates for various blending conditions were also compared. 相似文献
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《Polymer》1997,38(22):5557-5564
The mechanical properties of self-reinforced liquid crystalline polymer/polypropylene (LCP/PP) blends strongly depend on the viscosity ratio of the blend components in the melt. This ratio was determined for PP blends with different commercial LCPs (Vectra A950 and Vectra B950), by means of capillary rheometry, under conditions representative for the blending process during extrusion. It was found that optimal mechanical properties were achieved when the LCP/PP viscosity ratio at 285°C ranges between 2 and 4 at a shear rate of 800–1000s−1. The LCP/PP viscosity ratio appears to be shear stress dependent. This creates the option of fine tuning the LCP droplet deformation process by means of the extrusion rate. This shear stress dependence is more pronounced for PP blends with Vectra B950 than for blends with Vectra A950. 相似文献
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采用毛细管流变仪和旋转流变仪研究了聚丙烯(PP)纤维专用料/丙烯-乙烯共聚物(PEC)共混体系的流变行为,探究了剪切速率、温度、共混物组成对熔体流变行为的影响。结果表明,随着剪切速率的增加,PP、PP/PEC和PEC均表现出"剪切变稀"行为;随着温度的升高,聚合物的表观黏度逐渐降低,特别是在低剪切速率下的这种现象更明显;随着PEC含量的增加,体系的非牛顿指数增加,黏流活化能降低,黏度对温度的敏感性降低,熔体剪切模量增加,熔体弹性增加。 相似文献
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采用硅烷偶联剂KH-550对纳米铜粉进行表面处理,通过熔融共混制备纳米铜粉/PET共混物,用毛细管流变仪研究了共混物的流变性能。结果表明:纳米铜粉/PET共混体系为非牛顿性假塑性流体,其表观黏度随着剪切速率的增大而减小;随着纳米铜粉含量增加,非牛顿指数增大;共混物的黏流活化能随剪切速率的增加而减小。 相似文献
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The viscosity properties of melts of fibre-forming polypropylene (PP) and poly(butylene terephthalate) blends were investigated
in the entire range of ratios at different stresses and shear rate gradients at 230–250°C. It was shown that melts of fibre-forming
PP and PBT blends are weakly crosslinked systems. The effect of the mass ratio of PP and PBT on the apparent activation energy
of viscous flow of melts of the blends was investigated at different shear stresses and shear rate gradients. It was hypothesized
that this blend can be assigned to the group of limitedly compatible systems. The probability of compatibility of the polymers
in the melt appears when up to 20% PBT is incorporated in the PP. The blends are not compatible for the remaining ratios of
polymers in the investigated system.
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Translated from Khimicheskie Volokna, No. 5, pp. 17–21, September–October, 2006. 相似文献
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Blends of linear low density polyethylene (LLDPE) and polypropylene (PP) show diverse mechanical property behavior in the published literature. The main objectives of this work were: to investigate the effect of viscosity of the component phases on the mechanical properties of such blends and to use the results to obtain a method for compatibilizing diaper manufacturing waste. The significant result of the study was that although LLDPE/PP blends are often termed “incompatible,” when viscosity of the components was more closely matched to each other, increases of as much as 50% in tensile strength and modulus were observed over the “rule of mixtures” line. Also, scanning electron microscopy then showed a more diffuse interface between the component phases. Three dimensional views of plots of viscosity ratio of the blend components as a function of temperature and shear rate were used to demonstrate the closer matching of viscosities for the blend components of the higher performing blends. In processing diaper manufacturing waste, addition of a high molecular weight PP in a manufacturing scale single screw extruder, to provide a closer match of viscosities of the blend components, significantly improved mechanical properties. 相似文献
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《国际聚合物材料杂志》2012,61(1):15-24
In this work, a polyhedral oligomeric silsesquioxane which contains 3-chloropropyl groups (CP-POSS) was synthesized. The rheological behavior of CP-POSS/PVC blends was investigated by torque rheometer and capillary rheometer. Mechanical properties were investigated by electronic material tester. Influences of blending composition, shear rate and shear stress on melt apparent viscosity and non-Newtonian index (n) were discussed. The results show that the plastic time decreases and melt viscosity increases with increasing content of CP-POSS. CP-POSS has a good compatibility with PVC. The blend has the best impact strength when the content of CP-POSS is 7 wt%. The CP-POSS can be used as a processing aid and impact-resistant aid for PVC. 相似文献
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Young Keon Lee Young Tae Jeong Kook Choong Kim Han Mo Jeong Byung Kyu Kim 《Polymer Engineering and Science》1991,31(13):944-953
Two types of ultralow density polyethylene (ULDPE) of different melt viscosities were blended with a polypropylene (PP) in a twin screw extruder. Morphology, thermal, rheological, and mechanical properties of the blends were determined. Morphological observation from SEM showed a clean phase separation of PP/ULDPE blends. However, depending on the viscosity ratio, a significant difference in the extent of phase separation, as well as in the phase inversion composition, was demonstrated. The melting temperature of PP and ULDPE were respectively increased and decreased in the blend. Crystallization rate and the, crystallinity of PP and ULDPE were first increased and then decreased as the other component was increased. Yield at low frequencies was observed with 30 wt% ULDPE in PP. In ULDPE-rich compositions, complex viscosities of the blends gave negative deviation from the additive rule of mixing. Mechanical properties such as flexural modulus, elongation at break and Vicat softening point were closely relatable to the morphology. The impact strength of PP is significantly improved by ULDPE addition. 相似文献
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Study of melts rheological properties of unvulcanized and dynamically vulcanized polypropylene (PP)/ethylene‐propylene‐diene rubber (EPDM) blends, at blending ratios 10–40 wt %, EPDM, are reported. Blends were prepared by melt mixing in an internal mixer at 190°C and rheological parameters have been evaluated at 220°C by single screw capillary rheometer. Vulcanization was performed with dimethylol phenolic resin. The effects of (i) blend composition; (ii) shear rate or shear stress on melt viscosity; (iii) shear sensitivity and flow characteristics at processing shear; (iv) melt elasticity of the extrudate; and (v) dynamic cross‐linking effect on the processing characteristics of the blends were studied. The melt viscosity increases with increasing EPDM concentration and decreased with increasing intensity of the shear mixing for all compositions. In comparison to the unvulcanized blends, dynamically vulcanized blends display highly pseudoplastic behavior provides unique processing characteristics that enable to perform well in both injection molding and extusion. The high viscosity at low shear rate provides the integrity of the extrudate during extrusion, and the low viscosity at high shear rate enables low injection pressure and less injection time. The low die‐swell characteristics of vulcanizate blends also give high precision for dimensional control during extrusion. The property differences for vulcanizate blends have also been explained in the light of differences in the morphology developed. © 2000 John Wiley & Sons, Inc. J Appl Polym Sci 77: 1488–1505, 2000 相似文献