Human Hair as Fiber Reinforced Concrete for Enhancement of Tensile Strength of Concrete

Hummaira Kanwal,Muhammad Shahzad Aslam,Tayyaba Latif Mughal,Muhammad Asim,Reena Majid Memon

doi:10.22581/muet1982.2001.07

Abstract

FRC (Fibre Reinforced Concrete) is fibrous material which increases its structural integrity, resists to explosive spalling in case of environmental affects, improves mix cohesion, improves ductility, reduces of steel reinforcement requirements and reduces the voids due to good stiffness. It contains short discrete fibres that are uniformly distributed. Mostly, natural fibers are the waste material which may have negative impact on environment. Synthetic fibres include steel fibres and glass fibres but natural fibres are coconut fibres and human hair fibres which tends to vary the properties to concrete. In addition, the character of FRC changes with varying concrete, fibre material, geometries, distribution, orientation and densities. Hair fibre concrete gives a practical, cost-effective and convenient method to avoid cracks and deficiencies regarding strength and proper mixing ratio which occurs at a longer period. Fibres have been used to reduce plastic shrinkage and drying shrinkage in concrete. In some structural elements, fibrous concrete can be used to reduce the cost of structure. Different fibres are used to improve the tensile strength of concrete. Human hair are strong in tension. Hair fibres can be utilized as a strengthening material. Hair fibre is a non-decay able matter and available at a cheap rate. Experiments have been performed on fibrous concrete cylinders containing various percentages of human hair which is 0, 0.5, 1 and 1.5% by the weight of cement. A total of seventy-two cylinders have been prepared with FRC having different %ages of hair content. Workability, compressive strength and split tensile strength have been checked at three curing ages i.e. 7, 14 and 28 days. This research will open a new wicket in the horizon of reuse of waste material efficiently in construction industry. This innovation in construction industry will save our natural resources and use fibre in productive and an effective approach.

Highlights

FRC (Fibre Reinforced Concrete) is fibrous material which increases its structural integrity, resists explosive spalling in case of environmental affects, improves mix cohesion, improves ductility, reduces steel reinforcement requirements and reduces the voids due to good stiffness
The main objective of this study is to explore the possibility to use human hair as fibrous material to improve the mechanical characteristics of concrete
(i) Workability of the concrete made with Human hair of different percentage (0, 0.5, 1 and 1.5%) lies between 40-70mm, which is adequate for normal use of concrete

Summary

Introduction

FRC (Fibre Reinforced Concrete) is fibrous material which increases its structural integrity, resists explosive spalling in case of environmental affects, improves mix cohesion, improves ductility, reduces steel reinforcement requirements and reduces the voids due to good stiffness. This research will open a new wicket in the horizon of reuse of waste material efficiently in construction industry. This innovation in construction industry will save our natural resources and use fibre in productive and an effective approach. Voids are left even after proper mixing of ordinary concrete To overcome this issue fibres are used to fill the voids and reduced impact of cracking. Presence of fibrous material in concrete can enhance the durability of structure [1011]

Objectives

Methods

Results

Conclusion