Production of SBS Reinforced Polyester Composite: Characterization of Physical and Chemical Properties

H. Şahal, E. Aydoğmuş
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Abstract

In this study, dissolved styrene butadiene styrene (SBS) copolymer is homogeneously reinforced into orthophthalic unsaturated polyester (UP) resin. Polyester composite production is carried out with the help of methyl ethyl ketone peroxide (MEKP) and cobalt octoate (Co Oc) catalysts. The density, Shore D hardness, thermal conductivity coefficient, thermal stability, morphological surface structure, and chemical bond structure of the obtained composite have been examined. According to the results, SBS reinforcement decreases the density of the composite and increases the thermal conductivity coefficient. The addition of SBS at different weight ratios (1%, 3%, 5%, 7%, and 10% w/w) reduces both the hardness and thermal stability of the polyester composite. According to the test and analysis results, 5 wt.% SBS reinforced polyester composite production is determined as the optimum ratio. 7 wt.% and above SBS reinforcement negatively affect the physical and chemical properties of the obtained composite. For example, when 10 wt.% SBS reinforced composite is examined by scanning electron microscope (SEM), and irregular pores are observed in the surface morphology. Also, it is understood by Fourier transform infrared spectroscopy (FTIR) that there is a physical interaction between SBS and polyester and that no chemical bond is formed. The thermal decomposition behavior of the composite has been determined according to the decrease in the activation energy. As SBS ratio increases, it is understood that the thermal stability of the product obtained with the decrease in the activation energy of the polyester composite weakens.
SBS增强聚酯复合材料的生产:物理和化学性能表征
在本研究中,溶解的苯乙烯-丁二烯-苯乙烯(SBS)共聚物被均匀增强成邻苯二甲酸不饱和聚酯(UP)树脂。在过氧化甲乙酮(MEKP)和八酸钴(Co Oc)催化剂的帮助下,进行了聚酯复合材料的生产。测试了复合材料的密度、邵氏硬度、导热系数、热稳定性、表面形态结构和化学键结构。结果表明,SBS增强降低了复合材料的密度,提高了导热系数。不同重量比(1%、3%、5%、7%和10% w/w)的SBS的加入降低了聚酯复合材料的硬度和热稳定性。根据试验分析结果,确定了5 wt.% SBS增强聚酯复合材料的最佳配比。7 wt.%及以上的SBS增强对得到的复合材料的物理和化学性能有负面影响。例如,当用扫描电镜观察10 wt.% SBS增强复合材料时,在表面形貌上观察到不规则的孔隙。此外,通过傅里叶变换红外光谱(FTIR)可以了解SBS与聚酯之间存在物理相互作用,而没有形成化学键。根据活化能的降低来确定复合材料的热分解行为。据了解,随着SBS比的增加,随着聚酯复合材料活化能的降低而得到的产品的热稳定性减弱。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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