Influence of structure-forming agent on rheological properties of polymer mixture based on low and high density polyethylene

F. Mustafayeva, N. T. Kakhramanov, N. Arzumanova, G. H. Nuraliyeva
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Abstract

The paper considers the effect of a structure-forming agent (titanium dioxide) on the rheological characteristics of a polymer mixture based on low and high density polyethylene, taken in a 50/50 ratio. The titanium dioxide concentration was 1 wt%. The rheological behavior of melts of polymer composites was studied using a CEAST MF50 capillary rheometer (Instron, Italy) at temperatures of 190, 210, 230, 250 °С and loads of 3.8, 5.0, 10.0, 12.5, and 21.6 kg. The effect of temperature and shear stress on the regularity of changes in effective viscosity and shear rate has been established. According to the Arrhenius – Frenkel – Eyring model, the activation energy of the viscous flow of composites is determined. The “apparent” activation energy of the viscous flow varies within 16.04–33.10 kJ/mol for the initial polyethylene mixture and in the range of 6.96–33.10 kJ/mol for composites modified with a structurant based on a mixture of low and high density polyethylene. A universal temperature-invariant characteristic of the viscosity properties of polymeric materials has been constructed, which makes it possible, by extrapolating this dependence to the region of high shear rates, to predict the technological mode of their processing by injection molding and extrusion.
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结构形成剂对基于低密度和高密度聚乙烯的聚合物混合物流变特性的影响
本文研究了结构形成剂(二氧化钛)对以低密度聚乙烯和高密度聚乙烯为基础的聚合物混合物流变特性的影响,两者的比例为 50/50。二氧化钛的浓度为 1 wt%。使用 CEAST MF50 毛细管流变仪(意大利 Instron 公司)在 190、210、230 和 250 °С 的温度和 3.8、5.0、10.0、12.5 和 21.6 公斤的载荷下研究了聚合物复合材料熔体的流变特性。温度和剪切应力对有效粘度和剪切速率变化规律性的影响已经确定。根据 Arrhenius - Frenkel - Eyring 模型,确定了复合材料粘性流动的活化能。对于初始聚乙烯混合物,粘流的 "表观 "活化能在 16.04-33.10 kJ/mol 范围内变化,而对于使用基于低密度和高密度聚乙烯混合物的结构剂改性的复合材料,粘流的 "表观 "活化能在 6.96-33.10 kJ/mol 范围内变化。聚合物材料粘度特性的温度不变特性已经建立起来,通过将这种依赖性推断到高剪切率区域,可以预测其注塑和挤压加工的技术模式。
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