Fibre Reinforced Cement Composites

W. Labib
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引用次数: 3

Abstract

Progression in cement-based technology has driven the development of fibre reinforced concrete (FRC) materials; such as concrete technology. Steel fibre and synthetic fibre are fundamental fibre types, which include glass, carbon, polyvinyl, polyolefin, waste fibre materials and polypropylene. The mechanical properties of FRC members are affected from these fibres individually and in hybrid aspects. The type, content and geometry of fibres are relied to these mechanical properties. A significant improvement in mechanical and dynamic properties of reinforced concrete members is enabled due to additional fibres into cementitious composites. Most mechanical properties are enhanced through intercept micro-cracks. The level of enhancement accomplished relied on the type and dosage of fibre as compared to plain concrete. Effective tensile strength, energy dissipation capacity and toughness are explained through FRC. The shear, punching and flexure are significantly increased through the level of enhancement accomplished. These fibres include polyvinyl, glass, carbon, polyolefin and polypropylene that improve the mechanical properties of concrete. The historical use of fibres and types of fibres are reported in this chapter. Similarly, the curing of steel, structural synthetic fibres, the mechanical properties of cement, the addition, placing, finishing and mixing are based on waste fibres, hybrid fibres, steel and structural synthetic.
纤维增强水泥复合材料
水泥基技术的进步推动了纤维增强混凝土(FRC)材料的发展;比如混凝土技术。钢纤维和合成纤维是基本的纤维类型,包括玻璃、碳、聚氯乙烯、聚烯烃、废纤维材料和聚丙烯。FRC构件的力学性能受到这些纤维的单独和混杂方面的影响。纤维的种类、含量和几何形状取决于这些机械性能。由于在胶凝复合材料中加入了额外的纤维,钢筋混凝土构件的机械和动态性能得到了显著的改善。大多数力学性能是通过截距微裂纹提高的。与普通混凝土相比,增强的程度取决于纤维的类型和用量。有效抗拉强度、耗能能力和韧性通过FRC来解释。剪切力、冲孔力和挠度都通过提高完成了显著的提高。这些纤维包括聚氯乙烯、玻璃、碳、聚烯烃和聚丙烯,它们可以提高混凝土的机械性能。本章报告了纤维的历史用途和纤维的种类。同样,钢的养护、结构合成纤维、水泥的机械性能、添加、放置、整理和混合都是基于废纤维、混合纤维、钢和结构合成。
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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