A Review Study of the Mechanical Characteristics of Nano Concrete Reinforced with Hybrid Fiber

The Open Construction & Building Technology Journal Pub Date : 2023-04-19 DOI:10.2174/18748368-v17-e230419-2022-25

P. C. Chiadighikaobi, Qais Abdulrahman Ali Qais, M. Adegoke, V. J. Paul, L. A. Saad, R. H. Al-Brees, B. A. Obende

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Abstract

Due to poor strength and hardness, low tensile strength, and inadequate cracking resistance, conventional concrete has recently posed a significant barrier to the modernization of the structural sector. To solve these issues, researchers investigated and found ways of implementing nanotechnology in concrete production. Nano concrete can be produced by incorporating nanomaterials in the concrete mix. This concrete type can also be reinforced by incorporating hybrid fibers and nanofibers. This review paper conducted an in-depth study on two types of nanomaterials that could be used in the production of nano concrete. Additionally, hybrid fibers were used to strengthen nano concrete. The objective of this paper was to identify some nanomaterials used in the production of nano concrete. Even though this unique hybrid material has been the subject of several investigations, there have only been a few reviews on its production procedures, effectiveness, and performance of this type of concrete. To identify these nanomaterials, their potential, and their properties, a review method was used to study previous works of some researchers and scientists on related and similar works. Some properties of these nanomaterials were discussed in this paper. Summarizing and concluding the research works of previous authors and this current study, it was found that nano concrete has better properties compared to normal conventional concrete. However, there are some limitations associated with the uses and applications of these nanomaterials in concrete for mass production. By tracking the beginning and spread of cracks, it was discovered that mixing various fiber types into a concrete mix enhances the cementitious matrix's strength qualities. The mechanical and toughness characteristics of fiber-reinforced concrete mixtures may be significantly improved by incorporating composites hybrid fiber composites that utilize the synergistic impact of nano- and micro-additives.

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混杂纤维增强纳米混凝土力学特性研究综述

由于强度和硬度差，抗拉强度低，抗裂能力不足，传统混凝土最近对结构部门的现代化构成了重大障碍。为了解决这些问题，研究人员研究并找到了在混凝土生产中实施纳米技术的方法。在混凝土中掺入纳米材料可以制备纳米混凝土。这种类型的混凝土也可以通过混合纤维和纳米纤维来增强。本文对两种可用于纳米混凝土生产的纳米材料进行了深入的研究。此外，混杂纤维还用于纳米混凝土的增强。本文的目的是确定一些纳米材料用于生产纳米混凝土。尽管这种独特的混合材料已经成为几项研究的主题，但对于这种类型的混凝土的生产过程、有效性和性能，只有一些评论。为了鉴定这些纳米材料及其潜力和性质，本文采用综述的方法对一些研究人员和科学家在相关和类似方面的工作进行了研究。本文讨论了这些纳米材料的一些性质。通过对前人研究工作的总结和总结，本研究发现纳米混凝土比普通混凝土具有更好的性能。然而，这些纳米材料在混凝土中用于大规模生产的使用和应用存在一些限制。通过对裂缝产生和扩展过程的跟踪研究，发现在混凝土配合比中掺入不同类型的纤维可以提高胶凝基质的强度质量。混合纤维复合材料利用纳米和微添加剂的协同作用，可以显著改善纤维增强混凝土混合料的力学和韧性特性。

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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The Open Construction & Building Technology Journal

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