Influence of Long Polypropylene Fibre on the Properties of Concrete

Concrete is the most used building and construction material globally due to the ease of availability and durability. It is a well-known fact that concrete can easily withstand compressive stresses; however, it fails under tension. To improve this deficiency, steel bar reinforcement has been used. However, with the steel reinforcement, additional permanent self-weight is transferred on the structure and is prone to corrosion. Hence, engineers and researchers have been working to search for more sustainable reinforcing material that could be cost-effective and simultaneously increase tensile strength. This experimental work was carried out to study the influence of long (38.1 mm) polypropylene (PP) fibres on the workability and mechanical strengths (compressive and flexural) of concrete. Three different fibre fraction content, 0.20%, 0.25% and 0.30% were selected to reinforce concrete. A total of 12 cylinders of 300mm×150mm dimension (3 cylinders per mix) and 12 beams of 609.6mm×304.8mm×101.6mm dimension (3 beams per mix) were used to determine the compressive strength and flexural strength after the samples achieved 28 days curing. Based on the results, it can be observed that longer fibres do not significantly influence the compressive strength as much as they do on flexural strength. Furthermore, longer length fibres, like shorter fibres, obstruct the workability of concrete. Comparing with previous findings, it can be concluded that for patching of macrocracks, longer length PP fibres should be used.

[1]  W. I. Goh,et al.  Thermal Performance Simulation of Eco-Friendly Lightweight Foamed Concrete Incorporating Palm Oil Fuel ash and Eggshell Powder Using ABAQUS , 2021, Silicon.

[2]  W. I. Goh,et al.  Incorporation of Palm Oil Fuel Ash and Egg shell Powder as Supplementary Cementitious Materials in Sustainable Foamed Concrete , 2020, Tehnicki vjesnik - Technical Gazette.

[3]  Muhammad Saleem Raza,et al.  Effects of Steel Fibres on Fresh and Hardened Properties of Cement Concrete , 2020, Civil and Environmental Engineering Reports.

[4]  Rizwan Muhammad,et al.  Experimental Study of Physical, Fresh-State and Strength Parameters of Concrete incorporating Wood Waste Ash as a Cementitious Material , 2020 .

[5]  S. Sohu,et al.  Effect of Polypropylene Fibre on the Strength of Concrete Incorporating Rice Husk Ash , 2020 .

[6]  M. Arshad,et al.  Recycling of Coal Ash in Concrete as a Partial Cementitious Resource , 2019, Resources.

[7]  Manthar Ali Keerio,et al.  Comparative Study on Flexural Performance of Foamed Concrete Beam Containing Plastic Fibers , 2019, International Journal of Sustainable Construction Engineering Technology.

[8]  S. Sohu,et al.  Effect of steel fibres on the compressive and flexural strength of concrete , 2018, International Journal of ADVANCED AND APPLIED SCIENCES.

[9]  Zahid Hussain Khaskheli,et al.  Influence of Fibre Length on the Behaviour of Polypropylene Fibre Reinforced Cement Concrete , 2018, Civil Engineering Journal.

[10]  Imtiaz Ali Bhatti,et al.  Flexural Performance of Concrete Reinforced by Plastic Fibers , 2018, Engineering, Technology & Applied Science Research.

[11]  D. Shetty,et al.  Effect of sawdust impregnation on long coir fibers reinforced with epoxy matrix , 2018 .

[12]  W. I. Goh,et al.  The Mechanical Properties of Foamed Concrete with Polypropylene Fibres , 2018 .

[13]  W. I. Goh,et al.  Effect of Polypropylene Fibres on the Thermal Conductivity of Lightweight Foamed Concrete , 2018 .

[14]  Goh Wan Inn,et al.  Influence of polypropylene fibres on the tensile strength and thermal properties of various densities of foamed concrete , 2017 .

[15]  S Sheena,et al.  Fibre Reinforced Self-Compacting Concrete - A Review , 2016 .

[16]  Dr. T. Ch. Madhavi,et al.  Polypropylene Fiber Reinforced Concrete-A Review , 2014 .

[17]  A. Samad,et al.  Influence of Polypropylene Fiber in Strength of Foamed Concrete , 2012 .

[18]  Hui Li,et al.  Pore structure and chloride permeability of concrete containing nano-particles for pavement , 2011 .

[19]  Riadh Al-Mahaidi,et al.  Fibre Reinforcement in Concrete Structures , 2010 .