期刊
POLYMER COMPOSITES
卷 42, 期 3, 页码 1574-1582出版社
WILEY
DOI: 10.1002/pc.25925
关键词
aramid fiber (AF); interfacial adhesion; low heat generation; short fiber‐ reinforced rubber composites
资金
- Science Foundation of Guizhou Province [Qian Ke He ZhiCheng[2018] 2184, Qian Ke He JiChu[2019] 1243, Qian Ke He[2018] 5778-02]
This study described three simple and environmentally friendly methods for surface treatment of aramid fiber. The results showed that the mechanical properties of composites with coated aramid fiber were significantly improved compared to those with aramid fiber treated by thermal oxidation, although the heat generation was higher. The thermal oxidation method not only improved the constant elongation stress and tear strength, but also reduced the heat generation of the materials.
The surface treatment of aramid fiber (AF) improved the properties of reinforced composites. However, many AF modification methods were difficult to apply to the mass production of reinforced composites due to drawbacks, such as processes that were complex and not environmentally friendly. This paper described three simple and environmentally friendly methods for AF surface treatment and their effects on the properties of reinforced aramid fiber/carbon black/butadiene benzene ethylene rubber (AF/CB/SBR) composites. The AF was treated by thermal oxidation and coated with butadiene-styrene-pyridine rubber latex (VPL) or maleated polybutadiene liquid rubber. Then, AF/CB/SBR composites were produced when the modified AF was introduced into the SBR matrix. The results showed that compared with that of the composite with untreated AF, the interfacial bonding between the modified AF and the rubber matrix was improved, especially for tensile modulus elongations of 100% and 300%, and the tear strength of the composites was enhanced. Compared with those for the rubber composites with the AF treated by thermal oxidation, the mechanical properties of the rubber composites with the coated AF showed a greater improvement, but the heat generation was higher. Moreover, the thermal oxidation method not only improved the constant elongation stress and tear strength but also reduced the heat generation of the materials.
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