北苏门答腊沸石与氧化铁填充聚氨酯纳米复合材料的制备及微波吸收特性研究

Golfrid Gultom , Basuki Wirjosentono , Kerista Sebayang , Masno Ginting
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引用次数: 6

摘要

由于微波感应装置的使用越来越多,微波吸收聚合物复合材料在保护任何通信系统的干扰方面变得越来越重要。本研究以北苏门答腊天然沸石和工业氧化铁为填料制备了微波吸收聚氨酯复合材料。天然沸石与氧化铁的质量比(18:2;十六4;6;12:8和10:10)按重量计算。采用球磨技术制备了填料,并用粒度分析仪对填料的粒度分布进行了表征。采用聚乙二醇和甲苯二异氰酸酯原位反应制备的纳米复合材料,通过拉伸强度和热性能以及扫描电子显微镜的形态和化学性质对其物理和机械性能进行了表征。纳米填料对聚氨酯基体的组成和负载是重量的20%。采用8 ~ 12 GHz频率对纳米复合材料的微波吸收特性进行了表征。天然沸石-氧化铁聚氨酯纳米复合材料的抗拉强度在低氧化铁填充时表现出更高的值,这可能是由于纳米沸石通过填料表面与基体之间的极性相互作用对聚氨酯基体起了增强作用。用矢量网络分析仪研究了纳米沸石与氧化铁的比例为12:8的聚氨酯填充纳米复合材料的微波吸收性能,其反射损失为- 13.2 dB。在11.1 GHz下观察到这种情况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Preparation and Characterization of Microwave-absorption of Sarulla North Sumatra Zeolite and Ferric Oxide-filled Polyurethane Nanocomposites

Microwave-absorptive polymeric composite materials are becoming important to protect interference of any communication systems due to the increase in the use of microwave-inducing devices. In this work, the microwave-absorptive polyurethane composites are prepared using natural zeolites of Sarulla North Sumatra and commercial ferric-oxide as fillers. Weight ratio of the natural zeolite to ferric oxide were varied (18:2; 16:4; 14:6; 12:8 and 10:10) by weight. The fillers are prepared using ball milling technique and characterized using Particle Size Analyzer for particle size distribution. The nanocomposites, prepared using in-situ reaction of polyethylene glycol and toluene diisocyanate, is characterized for physical and mechanical properties using tensile strength, thermal properties with TGA techniques, as well as morphological and chemical properties using scanning electron microscopy. Composition and loading of the nanofillers against polyurethane matrices is 20% by weight. Microwave-absorption properties of the nanocomposites is characterized using 8-12 GHz frequency. Tensile strengths of the natural zeolite-ferric oxides polyurethane nanocomposites shows higher values when matrices filled with lower ferric-oxide, which could be due to the nanozeolites have functioned as reinforcement for the polyurethane matrix through polar-polar interaction between the filler surfaces with the matrices. The microwave absorption properties, which investigated by Vector Network Analyzer, of the nanocomposites filled in polyurethane with the ratio of nanozeolite to ferric oxide filler of 12:8 shows reflection loss of – 13.2 dB. This condition was observed at 11.1 GHz.

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