Temperature-dependent evolution of synthetic coal-derived graphite fillers and their reinforcement in styrene butadiene rubber composites

IF 8.3 1区 材料科学 Q1 MATERIALS SCIENCE, COMPOSITES
Hao Zhang , Xiaoyu Ding , Yongjie Yang , Qinfu Liu , Leibo Ji , Kuo Li , Junmin Sun , Zhiming Sun , Qianyi Ma , Ying Wu , Xinyang Liu , Chul B. Park , Naisheng Jiang
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Abstract

This study investigated the structural evolution of synthetic coal-derived graphite (SCG), produced from anthracite through high-temperature treatments ranging from 1000 to 2900 °C, and its reinforcement potential in styrene butadiene rubber (SBR) composites. Upon heating the anthracite to 2000 °C, We observed a gradual structural transformation from an amorphous carbon structure with mixed sp2-sp3 bonding to an ordered sp2-bonded nano-sized graphitic structure. This transformation was accompanied by the evaporation of heteroatom functional groups, an increase in high surface energy site as well as micropore and void structures, and enhanced hydrophobic surface property. Beyond 2000 °C, a flake-like graphite with a larger particle size (average lateral size >10 μm) was gradually formed through lateral and vertical crystalline growth mechanisms. The reinforcing potential of SCG fillers was revealed by incorporating them into SBR and evaluating the properties of the resulting composites. It was found that the tensile strength and 300 % tensile modulus initially enhanced with SCG fillers treated up to 2000 °C, but decreased for fillers treated at 2300 and 2900 °C. On the other hand, storage modulus, tear resistance, and gas permeability consistently improved with fillers treated at higher temperatures. These findings highlight the relationship between the temperature-induced structural evolution of SCG fillers and their reinforcement performance in SBR composites, offering valuable insights for industrial rubber applications, particularly enhancing the performance and sustainability of automotive tire.

Abstract Image

合成煤石墨填料及其在丁苯橡胶复合材料中的补强作用随温度的变化
本研究调查了无烟煤经 1000 至 2900 °C 高温处理后产生的合成煤石墨(SCG)的结构演变及其在丁苯橡胶(SBR)复合材料中的增强潜力。将无烟煤加热到 2000 °C后,我们观察到其结构从混合 sp2-sp3 键的无定形碳结构逐渐转变为有序 sp2 键的纳米级石墨结构。伴随这种转变的是杂原子官能团的蒸发、高表面能位点以及微孔和空隙结构的增加和疏水表面特性的增强。超过 2000 °C 后,通过横向和纵向结晶生长机制,逐渐形成了粒径更大(平均横向尺寸为 10 μm)的片状石墨。通过在丁苯橡胶中加入 SCG 填料并对所得复合材料的性能进行评估,揭示了 SCG 填料的增强潜力。研究发现,SCG 填料在 2000 ℃ 以下处理时,拉伸强度和 300 % 拉伸模量最初有所提高,但在 2300 ℃ 和 2900 ℃ 处理时,拉伸强度和 300 % 拉伸模量有所降低。另一方面,在较高温度下处理的填料的储存模量、抗撕裂性和气体渗透性持续提高。这些发现强调了温度诱导的 SCG 填料结构演变与其在 SBR 复合材料中的补强性能之间的关系,为工业橡胶应用,尤其是提高汽车轮胎的性能和可持续性提供了宝贵的见解。
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来源期刊
Composites Science and Technology
Composites Science and Technology 工程技术-材料科学:复合
CiteScore
16.20
自引率
9.90%
发文量
611
审稿时长
33 days
期刊介绍: Composites Science and Technology publishes refereed original articles on the fundamental and applied science of engineering composites. The focus of this journal is on polymeric matrix composites with reinforcements/fillers ranging from nano- to macro-scale. CSTE encourages manuscripts reporting unique, innovative contributions to the physics, chemistry, materials science and applied mechanics aspects of advanced composites. Besides traditional fiber reinforced composites, novel composites with significant potential for engineering applications are encouraged.
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