二氧化硅陶瓷粒径对再生聚乙烯复合材料性能的影响

J. Agunsoye, S. I. Talabi, V. Aigbodion, A. Olumuyiwa
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引用次数: 8

摘要

颗粒填充聚合物复合材料因其广泛的应用和较低的生产成本而越来越受到人们的关注。为了评估在回收聚乙烯(PE)复合材料中使用废二氧化硅基陶瓷材料作为增强填料的可能性,研究了在(2wt%填料)和晶粒尺寸(40µm-150µm)下,陶瓷(PC)粒径对聚乙烯(PE)复合材料力学、磨损和热性能的影响。利用方差分析(ANOVA)和线性回归分析表征了PE-PC复合材料的磨损行为,确定了速度、载荷和时间等工艺参数对复合材料磨损行为的主要影响和交互影响。试验结果表明,减少150µm ~ 40µm的陶瓷颗粒,提高了再生聚乙烯(PE)复合材料的力学、磨损和热性能。实验的析因设计可以成功地描述样品的磨损行为,并建立了在选定的实验条件下预测磨损率的线性方程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of Silica Ceramic Particle Sizes on the Properties of Recycled Polyethylene Composites
Particulate filled polymeric composites are becoming attractive because of their wide applications and lower production cost. To evaluate the possibility of using waste silica based ceramic materials as reinforcing filler in recycled polyethylene (PE) composite, the effect of  ceramic (PC) particle sizes on the mechanical, wear and thermal behaviours of polyethylene (PE) composites were investigated at  (2wt% filler) and grain sizes (40µm-150µm). The wear behaviour was characterized using analysis of variance (ANOVA) and linear regression to determine the main and interactive effects of the process parameters such as speed, load and time on the wear behaviour of the fabricated PE-PC composites. Test results show that the decreasing the ceramic particles 150µm-40µm improved the mechanical, wear and thermal properties of the recycled polyethylene (PE) composites. Factorial design of the experiment can be successfully employed to describe the wear behavior  of the samples and developed linear equation for predicting wear rate with in selected experimental conditions.
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