硅藻土/等规聚丙烯复合材料的化学改性对其流变、形态和力学性能的影响

Rouag Hichem, S. Bouhelal
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引用次数: 0

摘要

本文研究了硅藻土(D)微复合材料在聚丙烯(iPP)共混物中经化学改性和未经化学改性的效果。目标是以更低的成本获得性能更好的材料,更容易获得,更适合加工。采用以硫、促进剂和过氧化物为基础的交联体系对硅藻土(MD)进行了化学表面改性。iPP/硅藻土复合材料是在Brabender plastic - corde中进行间歇熔融混合,在高温下强烈剪切,硅藻土含量在0 - 15%之间变化。通过监测Brabender plastic - corde扭矩/时间流变仪来检测流变行为。采用不同的技术对样品进行表征:傅里叶变换红外光谱(FTIR)、WAXS、SEM和DSC。此外,还进行了拉伸强度试验和冲击强度力学试验来研究其性能。研究发现,化学改性对复合材料的流变行为有明显影响,与未改性的复合材料相比,产生了新的流变特性。这就产生了一种新的结构形式,提高了机械性能。此外,所使用的化学改性由于其简单,可以通过适当的工艺成功地在工业规模上使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of the Chemical Modification of Diatomite/Isotactic Polypropylene Composite on the Rheological, Morphological and Mechanical Properties
The present study deals with the effect of the Diatomite (D) microcomposite with and without chemical modification in a polypropylene (iPP) blend. The objective is to achieve a material with a better performance at a lower cost and more accessible and more suitable processing. The chemical surface modification of Diatomite (MD) was achieved using a crosslinking system based on a mixture of sulfur, accelerator, and peroxide. The iPP/Diatomite composite was prepared by batch melt mixing in a Brabender Plasti-Corde under intense shearing at high temperatures and varying the Diatomite content from 0 to 15 wt%. The rheological behavior was examined by monitoring the Brabender Plasti-Corde torque/time rheographs. Different techniques were used to characterize the sample: Fourier transform infrared spectroscopy (FTIR), WAXS, SEM, and DSC. In addition, tensile strength tests and impact strength mechanical tests were conducted to study the performance. It was found that chemical modification strongly affected rheological behavior and generated a new rheological characteristic compared to the composites without modification. This has induced a new structure form that has improved mechanical properties. Moreover, the chemical modification used and due to its simplicity, can be successfully used on an industrial scale with the appropriate process.
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