The Improvement of the Tribological Behaviour of Chemically Treated Abaca Fibre-Reinforced Polymer Composites

被引:4
作者
Liu, Yucheng [1 ,2 ]
Ma, Yunhai [2 ]
机构
[1] Jiangsu Univ, Coll Agr Engn, Zhenjiang 212013, Peoples R China
[2] Jilin Univ, Key Lab Bion Engn, Minist Educ, Changchun 130022, Peoples R China
基金
中国博士后科学基金;
关键词
abaca fibre; chemical surface treatment; NaOH; silane coupling agent; polymer composite; tribological behaviour; CORN STALK WASTE; FRICTION MATERIALS; WEAR; SURFACE; RESIN;
D O I
10.3390/ma16247588
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
Abaca fibres that have excellent mechanical properties are widely applied in the production and preparation of eco-friendly polymer composites as reinforcement materials. However, the weak interfacial bonding property of the abaca fibre and composite matrix limits the further extended application of abaca fibre-reinforced polymer composites. In this research, the findings demonstrate that, compared to raw abaca fibres, the interfacial shear strength (IFSS) value between the treated fibre and matrix is improved by 32% to 86%. Moreover, chemically treated abaca fibres could not only improve the wear resistance of the polymer composites, but also could promote the formation of primary and secondary plateaus. The best wear resistance behaviour was demonstrated by the sample with abaca fibres treated with 3% NaOH and 5% silane solutions, which had a maximum reduction in the sum wear rate of 28.44%. This research will provide detail on theoretical guidance and technical support for the development of eco-friendly natural fibre-reinforced polymer composites.
引用
收藏
页数:14
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共 47 条
[21]   Morphology and Toughness of Abrasive Particles and Their Effects on the Friction and Wear of Friction Materials: A Case Study with Zircon and Quartz [J].
Lee, E. J. ;
Hwang, H. J. ;
Lee, W. G. ;
Cho, K. H. ;
Jang, H. .
TRIBOLOGY LETTERS, 2010, 37 (03) :637-644
[22]   High performance aramid pulp/carbon fiber-reinforced polybenzoxazine composites as friction materials [J].
Lertwassana, Witchukorn ;
Parnklang, Tewarak ;
Mora, Phattarin ;
Jubsilp, Chanchira ;
Rimdusit, Sarawut .
COMPOSITES PART B-ENGINEERING, 2019, 177
[23]   Interfacial modification and tribological properties of ZnO nanosheet carbon fiber reinforced poly(hexahydrotriazine) composites [J].
Li, Xiaoqian ;
Jia, Xiaohua ;
Yang, Jin ;
Li, Yong ;
Wang, Sizhe ;
Song, Haojie .
TRIBOLOGY INTERNATIONAL, 2022, 165
[24]   Characterization of silane treated and untreated natural cellulosic fibre from corn stalk waste as potential reinforcement in polymer composites [J].
Liu, Yucheng ;
Lv, Xueman ;
Bao, Jianlun ;
Xie, Jun ;
Tang, Xu ;
Che, Junjian ;
Ma, Yunhai ;
Tong, Jin .
CARBOHYDRATE POLYMERS, 2019, 218 :179-187
[25]   Evaluation of wear resistance of corn stalk fiber reinforced brake friction materials prepared by wet granulation [J].
Liu, Yucheng ;
Wang, Lining ;
Liu, Daxin ;
Ma, Yunhai ;
Tian, Yong ;
Tong, Jin ;
Senthamaraikannan, Palanichamy ;
Saravanakumar, Sankaranarayanan .
WEAR, 2019, 432
[26]   Characterization of natural cellulose fiber from corn stalk waste subjected to different surface treatments [J].
Liu, Yucheng ;
Xie, Jun ;
Wu, Na ;
Ma, Yunhai ;
Menon, Carlo ;
Tong, Jin .
CELLULOSE, 2019, 26 (08) :4707-4719
[27]   Influence of silane treatment on the mechanical, tribological and morphological properties of corn stalk fiber reinforced polymer composites [J].
Liu, Yucheng ;
Xie, Jun ;
Wu, Na ;
Wang, Lidong ;
Ma, Yunhai ;
Tong, Jin .
TRIBOLOGY INTERNATIONAL, 2019, 131 :398-405
[28]   Development and characterization of alkali treated abaca fiber reinforced friction composites [J].
Liu, Yucheng ;
Ma, Yunhai ;
Yu, Jiangtao ;
Zhuang, Jian ;
Wu, Siyang ;
Tong, Jin .
COMPOSITE INTERFACES, 2019, 26 (01) :67-82
[29]   Natural fibre reinforced non-asbestos organic non-metallic friction composites: effect of abaca fibre on mechanical and tribological behaviour [J].
Liu, Yucheng ;
Ma, Yunhai ;
Che, Junjian ;
Duanmu, Lingjian ;
Zhuang, Jian ;
Ton, Jin .
MATERIALS RESEARCH EXPRESS, 2018, 5 (05)
[30]   Towards a better understanding of the structures existing on the surface of brake pads [J].
Neis, P. D. ;
Ferreira, N. F. ;
Fekete, G. ;
Matozo, L. T. ;
Masotti, D. .
TRIBOLOGY INTERNATIONAL, 2017, 105 :135-147