Improvement of the Mechanical Behavior of Composite Materials with Different Binders Based on Local Plant Fibers Alfa and Diss

IF 0.6 Q4 ENGINEERING, CIVIL
Zohra Belkhir, M. Merzoud
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引用次数: 1

Abstract

Abstract Concerned about the environmental and economic impact, composite materials are increasingly used in the construction sector. Indeed, the use of plant fibers as reinforcement in construction materials have been the subject of several researches in recent years; the main motivation is the weight gain combined with high mechanical characteristics. The objective of this research concerns the study of the physicomechanical properties of composite materials with cement and clay matrices reinforced with Alfa and Diss fibers with dimensions ranging from 2 to 8 cm. This involves evaluating the performance of these materials according to the formulation, for a volume ratio (Alfa or Diss / Matrix fibers equal to 4), using dry fibers and pre-wetted fibers. The study of the mechanical properties showed a drop of the performance for both compression and bending strength compared to the reference material without adding fibers (cement or clay paste). It should be noted that the best mechanical performance is obtained for the case of composites materials with cementitious matrix with pre-wetted fibers. On the other hand, in the case of composites with clayey matrices, pre-wetting does not improve the mechanical characteristics. It is also noted that the best dimensions of fibers which improve the mechanical characteristics in bending are generally 6 cm for composites with a clay matrix and between 2 and 4 cm for cementitious composites. In all cases, the fibers in composite materials with cement or clay matrix create a bridging effect, making it possible to limit the progression of cracks during loading. This phenomenon gives to the various composite materials a ductile behavior.
基于本地植物纤维Alfa和Diss的不同粘结剂对复合材料力学性能的改善
摘要考虑到对环境和经济的影响,复合材料越来越多地用于建筑行业。事实上,近年来,在建筑材料中使用植物纤维作为增强材料已经成为一些研究的主题;主要动机是体重增加与高机械特性相结合。本研究的目的是研究尺寸为2至8cm的Alfa和Diss纤维增强水泥和粘土基质复合材料的物理力学性能。这包括根据配方评估这些材料的性能,体积比(Alfa或Diss/基质纤维等于4),使用干纤维和预润湿纤维。力学性能的研究表明,与不添加纤维的参考材料(水泥或粘土浆)相比,压缩和弯曲强度的性能都有所下降。应该注意的是,对于具有预润湿纤维的胶结基质的复合材料,获得了最佳的机械性能。另一方面,在具有粘性基质的复合材料的情况下,预润湿并不能改善力学特性。还应注意的是,对于具有粘土基质的复合材料,改善弯曲力学特性的纤维的最佳尺寸通常为6cm,而对于水泥基复合材料,纤维的最佳尺度在2~4cm之间。在所有情况下,具有水泥或粘土基质的复合材料中的纤维都会产生桥接效应,从而有可能限制加载过程中裂纹的发展。这种现象使各种复合材料具有延性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
自引率
14.30%
发文量
40
审稿时长
52 weeks
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