Influence of silicon dioxide addition and processing methods on structure, thermal stability and flame retardancy of EVA/NR blend nanocomposite foams

IF 1.1 4区 材料科学 Q4 MATERIALS SCIENCE, COMPOSITES
Alif Walong, B. Thongnuanchan, T. Sakai, N. Lopattananon
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引用次数: 4

Abstract

Rubber nanocomposite foams based on 60/40 ethylene vinyl acetate (EVA)/natural rubber (NR) were melt-mixed with flame retardant silicon dioxide (SiO2) (20 parts per hundred rubber, phr), and foamed by compression molding process. In this study, the effect of mixing phenomena of SiO2 through two different compounding techniques such as direct mixing (DM) and phase selective mixing (PSM) methods on structure, thermal stability, combustility and flame retardancy of EVA/NR blend nanocomposite foams were investigated. DM method is a melt mixing of EVA, NR, layered silicate and SiO2, followed by foaming. PSM is a new method based on pre-mixing EVA with SiO2, then melt mixing of EVA/SiO2 masterbatch with NR and layered silicate, and finally foaming. Based on TEM technique, it was found that the SiO2 was exclusively located in dispersed NR phase for the sample prepared by DM method, and the SiO2 was preferably dispersed in continuous EVA matrix when PSM method was employed. However, the different mixing methods did not significantly alter their cellular structures. The thermal stability and char residue content of foamed samples with SiO2 increased obviously when compared with those of corresponding foams without SiO2. The results based on limiting oxygen index (LOI) test and oxygen bomb calorimetry indicated that the foams combined with SiO2 had better combustion resistance and flame retardancy due to barrier effect of thermally stable silicon-based char layer. Further, the SiO2 filled foamed system obtained from the PSM method showed a higher degree of improvement in thermal stability, combustion resistance and flame retardancy than that of DM method because the homogeneous dispersion of SiO2 in EVA matrix rather than the selective dispersion in NR phase. This resulted in the continuity of flame retardant EVA/SiO2 phase in the 60/40 EVA/NR nanocomposite foams, which exerted more efficient fire barrier of the silicon-based char layer.
二氧化硅添加量及加工方式对EVA/NR共混纳米复合泡沫结构、热稳定性和阻燃性的影响
以60/40醋酸乙烯酯(EVA)/天然橡胶(NR)为基材,与阻燃型二氧化硅(SiO2)(20 / 100橡胶,phr)熔融共混,采用压缩成型工艺发泡。在本研究中,通过直接混炼(DM)和相选择混炼(PSM)两种不同的混炼方法,研究了SiO2的混炼现象对EVA/NR共混纳米复合泡沫的结构、热稳定性、燃烧性能和阻燃性能的影响。DM法是将EVA、NR、层状硅酸盐和SiO2熔融混合,然后发泡。PSM是将EVA与SiO2预混,然后将EVA/SiO2母粒与NR和层状硅酸盐熔融混合,最后发泡的新方法。透射电镜(TEM)分析发现,DM法制备的SiO2只分布在分散的NR相中,而PSM法制备的SiO2更有利于分散在连续的EVA基体中。然而,不同的混合方式并没有显著改变它们的细胞结构。与不含SiO2的泡沫试样相比,含SiO2泡沫试样的热稳定性和炭渣含量明显提高。基于极限氧指数(LOI)测试和氧弹量热法的结果表明,由于热稳定的硅基炭层的阻隔作用,SiO2复合泡沫具有更好的耐燃性和阻燃性。此外,由于SiO2在EVA基体中的均匀分散而不是在NR相中的选择性分散,PSM法制备的SiO2填充泡沫体系在热稳定性、耐燃性和阻燃性方面都比DM法制备的泡沫体系有更高程度的改善。这使得阻燃EVA/SiO2相在60/40 EVA/NR纳米复合泡沫中具有连续性,从而对硅基炭层起到了更有效的防火作用。
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来源期刊
Progress in Rubber Plastics and Recycling Technology
Progress in Rubber Plastics and Recycling Technology MATERIALS SCIENCE, COMPOSITES-POLYMER SCIENCE
CiteScore
4.40
自引率
7.70%
发文量
18
审稿时长
>12 weeks
期刊介绍: The journal aims to bridge the gap between research and development and the practical and commercial applications of polymers in a wide range of uses. Current developments and likely future trends are reviewed across key areas of the polymer industry, together with existing and potential opportunities for the innovative use of plastic and rubber products.
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