陶瓷废料基天然橡胶复合材料:一种令人兴奋的改善机械性能的方法

Y. G. Kondarage, H. Pitawala, T. Kirushanthi, D. Edirisinghe, T. Etampawala
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引用次数: 2

摘要

陶瓷工业产生的大量烧成陶瓷废料由于烧成陶瓷已经烧结,没有适当的回收方法,主要被扔进垃圾填埋场,限制了其作为原料的利用。然而,这些固体废物具有重大的环境和经济问题。因此,对这类固体废物进行适当的管理是十分重要的。本研究致力于评估在制造天然橡胶基复合材料中使用这种陶瓷废料作为低成本填充材料的可能性。初步选择了小于125 μm的陶瓷颗粒制备天然橡胶基复合材料。在研究的后半部分,我们使用了亚微米尺度的颗粒。用x射线荧光和衍射分别测定了陶瓷颗粒的元素分析和相组成。用扫描电镜(SEM)对其平均粒径进行了表征。采用硅烷69偶联剂对亚微米级陶瓷颗粒进行表面改性。通过傅里叶变换红外光谱、热重分析、扫描电子显微镜和能量色散x射线光谱分析证实了表面改性。采用不同水平的陶瓷填料制备了天然橡胶基复合材料。对复合材料的硬度、回弹性、压缩集、磨损体积损失、拉伸性能等力学性能进行了评价。并与除陶瓷填料(对照)外按相同配方制备的复合材料的性能进行了比较。复合材料被发现有一个令人兴奋的增强机械性能相对于控制。采用亚微米级球磨陶瓷填料,其力学性能提高幅度较大;采用表面改性陶瓷颗粒,其力学性能提高幅度更大。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ceramic Waste-Based Natural Rubber Composites: An Exciting Way for Improving Mechanical Properties
Large amounts of fired ceramic waste produced in ceramic industry do not have a proper method to reuse and mainly thrown away into landfills since fired ceramics have already been sintered and thus their utilization as a raw material is limited. However, these solid wastes have a major environmental and economic concern. Thus, a proper management of such solid wastes is eminent. This research is dedicated to evaluating the possibility of using such ceramic waste as a low-cost filler material in the manufacture of natural rubber based composites. Ceramic particles smaller than 125 μm were selected initially for the preparation natural rubber based composites. For the latter part of the study, particles in sub-micrometer length scales were used. Elemental analyses and composition of the phases of the ceramic particles were determined by X-ray fluorescence and diffraction respectively. The average particle size was characterized by scanning electron microscope (SEM). The surfaces of the sub micrometer size ceramic particles were modified using Silane69 coupling agent. The surface modification was confirmed by Fourier-transform infrared spectroscopy, thermo gravimetric analysis and SEM coupled with energy-dispersive X-ray spectroscopy. Natural rubber based composites were prepared with different levels of ceramic filler loadings. The mechanical properties of the composites such as hardness, resilience, compression set, abrasion volume loss and tensile properties were evaluated. These properties of the composites were compared with those of the composites prepared according to the same formulation except the ceramic filler (control). The composites were found to have an exciting enhancement of mechanical properties with respect to the control. The mechanical property improvement is higher when the ball milled sub-micrometer size ceramic filler is used and it is even better when surface modified ceramic particles are used.
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