研究了纳米热硅对橡胶复合材料力学性能和硫化性能的影响

Q3 Engineering
M. W. Syabani, Rochmadi, I. Perdana, A. Prasetya
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引用次数: 0

摘要

研究了纳米地热二氧化硅(NGS)对不同填充量橡胶胶料的力学性能和硫化特性的影响。橡胶化合物中分别填充0、20、30和40个单位的二氧化硅。采用透射电子显微镜、粒径分析仪、BET表面积分析等方法对NGS的形貌、粒径分布和表面积进行分析。采用万能试验机和动模流变仪对NGS增强胶料的力学性能和硫化特性进行了评价。结果表明,NGS主要粒径在20 nm以下,比表面积为168.35 m2/g。二氧化硅与橡胶的相互作用决定了橡胶复合材料的模量和硫化特性。与此同时,橡胶化合物的抗拉强度随着填料负荷从0 / phr增加到30 / phr,显著增加了3倍以上,然后在加载40 / phr时略有下降。由于活化剂和促进剂的吸附作用,与无填料的化合物相比,添加20 phr的二氧化硅导致烧焦时间延长。然而,达到30 phr二氧化硅负载后,烧焦时间缩短,这可能是由于较高数量的结合橡胶覆盖了部分二氧化硅表面,从而降低了其吸附活化剂的能力。具有良好导热性的二氧化硅的存在使得在硫化过程中有更好的传热,从而在更高负载下缩短固化时间。NGS负载为30 phr的橡胶化合物在填料-橡胶相互作用、硫化特性和橡胶化合物的机械性能之间取得了良好的平衡。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigating the impact of nanoparticle geothermal silica loading on the mechanical properties and vulcanization characteristics of rubber composites
The present study investigates the effects of nanoparticle geothermal silica (NGS) on the mechanical properties and vulcanization characteristics of rubber compounds with various filler loadings. The rubber compounds were filled with 0, 20, 30, and 40 phr of silica. The properties of NGS were analyzed using transmission electron microscopy, particle size analyzer, and BET surface area analysis to examine its morphology, size distribution, and surface area. The mechanical properties and vulcanization characteristics of the rubber compounds reinforced with NGS were evaluated using a universal testing machine and moving die rheometer. The results showed that NGS possessed the primary particle sizes below 20 nm and a surface area of 168.35 m2/g. The interaction between silica and rubber determined the modulus of the rubber composites and the vulcanization characteristics. The tensile strength of the rubber compounds, meanwhile, showed a significant increase more than threefold as the filler loading increased from 0 phr to 30 phr, followed by a slight decline at 40 phr loading. The addition of 20 phr of silica led to a prolonged scorch time compared to the filler-free compound due to the adsorption of activators and accelerators. However, the scorch time decreased after reaching 30 phr of silica loading, which could be attributed to the higher amount of bound rubber covering a portion of the silica surface, thereby reducing its ability to adsorb the activator. The presence of silica with good thermal conductivity enabled a better heat transfer during the vulcanization process, resulting in shorter curing times for higher loading. Rubber compounds with an NGS loading of 30 phr demonstrated a favorable balance between filler-rubber interactions, vulcanization characteristics, and mechanical properties in the rubber compounds.
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来源期刊
Communications in Science and Technology
Communications in Science and Technology Engineering-Engineering (all)
CiteScore
3.20
自引率
0.00%
发文量
13
审稿时长
24 weeks
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