Examining Mechanical Property Differences in Concrete with Natural and Synthetic Fiber Additives-Reference-Cited by-同舟云学术

Examining Mechanical Property Differences in Concrete with Natural and Synthetic Fiber Additives

Published:2024-04-30 Issue:5 Volume:8 Page:167
ISSN:2504-477X
Container-title:Journal of Composites Science
language:en
Short-container-title:J. Compos. Sci.

Author:

Edris Walid Fouad¹²,Elbialy Samy¹³^ORCID,El-Zohairy Ayman⁴^ORCID,Soliman Ashraf Mohamed⁵⁶,Shawky Shymaa M. M.⁷,Selouma Tarek Ibrahim²,Al Sayed Abd Al-Kader A.⁷^ORCID

Affiliation:

1. Department of Civil and Environmental Engineering, College of Engineering &Design, Kingdom University, Riffa 40434, Bahrain

2. Department of Civil Engineering, Giza High Institute of Engineering and Technology, Giza 12611, Egypt

3. Faculty of Engineering in El-Mataria, Helwan University, Cairo 12612, Egypt

4. Department of Engineering and Technology, Texas A&M University-Commerce, Commerce, TX 75429, USA

5. Department of Architectural Engineering, College of Engineering & Design, Kingdom University, Riffa 40434, Bahrain

6. Faculty of Engineering, Minia University, Minia 61111, Egypt

7. Department of Civil Engineering, Higher Technological Institute, 10th of Ramadan City 44629, Egypt

Abstract

The rapid growth of Natural Fiber Laminate (NFL) innovation is a direct response to environmental challenges, positioning these materials as superior alternatives to synthetic fiber composites. This paper delved into the outcomes of an extensive experimental study investigating the influence of sisal fiber (SLF), banana fiber (BF), and glass fiber (GF) on the mechanical and microstructural characteristics of concrete. The water absorption curves were established for sisal fiber concrete (SLFC), banana fiber concrete (BFC), and glass fiber concrete (GFC). Furthermore, Scanning Electron Microscope (SEM) observations were conducted to perform microanalysis and failure analysis of the tested specimens. The results revealed significant improvements in the concrete containing fibers compared to its counterpart in fiber-free concrete. For mixtures with a water-to-binder (W/B) ratio of 0.3, the most optimal mix (GF-30-135) showed improvements in compressive strength, flexural strength, and splitting tensile strengths by 4.13%, 8.93%, and 10.10%, respectively. On the other hand, for W/B of 0.4, mix GF-30-135 showed improvements of 5.05%, 8.55%, and 11.60%, respectively. Furthermore, as the fiber content increased, microscopic analyses revealed a weakening of the bond between the fibers and the rest of the matrix, contributing to the deterioration of the mechanical properties.

Funder

Kingdom University

Publisher

MDPI AG

Link

https://www.mdpi.com/2504-477X/8/5/167/pdf

Reference46 articles.

1. Materials Today: Proceedings A study on characteristics of sisal fiber and its performance in fiber reinforced concrete;Thomas;Mater. Today Proc.,2021

2. Bond stress behavior between concrete and steel rebar: Critical investigation of pull-out test via Finite Element Modeling;Kabir;Int. J. Civ. Struct. Eng.,2014

3. Durability of chemically modified sisal fibre in cement-based composites;Kayondo;Constr. Build. Mater.,2020

4. Comparative study on the mechanical behavior and durability of polypropylene and sisal fiber reinforced concretes;Maria;Constr. Build. Mater.,2019

5. Lima, P.R.L., Roque, A.B., Fontes, C.M.A., Lima, J.M.F., and Barros, J.A.O. (2017). Sustainable and Nonconventional Construction Materials Using Inorganic Bonded Fiber Composites, Woodhead Publishing.

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