Journal ArticleDOI
Use of recycled fibers in concrete composites: A systematic comprehensive review
TLDR
In this article, a comprehensive review was carried out on the influence of recycled plastic fibers (RPFs), recycled carpet fibers (RCFs) and recycled steel fibers (RSFs) on the fresh, mechanical and ductility properties of concrete.Abstract:
Municipal solid waste materials are growing worldwide due to human consumption. Nowadays, a different type of goods on large-scale is produced in the factories which is going to generate numerous amount of solid waste materials in the near future. Therefore, the management of these solid waste materials is a great concern around the world. Inadequate landfill, environmental pollution and its financial burden on relevant authorities, recycling and utilization of waste materials have a significant impact compared to disposing them. Studies have been done to reuse of waste materials as one of the elements of concrete composites. Each of the elements gives the concrete strength; however, the reuse of these wastes not only makes the concrete economical and sustainable, but also helps in decreasing environmental pollution. There are a number of different types of waste materials such as plastics, carpets, steels, tires, glass, and several types of ashes. In this paper, a comprehensive review was carried out on the influence of recycled plastic fibers (RPFs), recycled carpet fibers (RCFs) and recycled steel fibers (RSFs) on the fresh, mechanical and ductility properties of concrete. The previous studies were investigated to highlight the effects of these waste product fibers on the most important concrete properties such as slump, compressive strength, splitting tensile strength, flexural strength, modulus of elasticity, ultrasonic pulse velocity, energy absorption, ductility, and toughness. In this regard, more than 200 published papers were collected, and then the methods of preparation and properties of these recycled fibers (RF) were reviewed and analyzed. Moreover, empirical models using mechanical properties were also developed. As a result, RPFs, RCFs and RSFs could be used safely in concrete composites due to it is satisfactory fresh, physical and mechanical properties.read more
Citations
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Journal ArticleDOI
Performance of engineered fibre reinforced concrete (EFRC) under different load regimes: A review
TL;DR: In this paper, the authors present a critical analysis by compiling the previous research studies with an emphasis on the optimization of fiber reinforced concrete to enhance its strength against different load regimes with a special focus on thermo-mechanical load conditions.
Journal ArticleDOI
Mechanical Performance of Concrete Made with the Addition of Recycled Macro Plastic Fibres
TL;DR: In this article, the authors analyzed the mechanical and physical behavior of hardened concrete reinforced with macro plastic fibres (RPFs) obtained from food packaging waste (FPW) discarded during the packaging phase, and observed that the presence of macro-plastic fibres reduced the mechanical resistance capacity compared to that of traditional concrete, their contribution proved to be of some importance in terms of toughness, bringing an improvement in the post-crack resistance of the composite material.
Journal ArticleDOI
A study on the shear strength and dry-wet cracking behaviour of waste fibre-reinforced expansive soil
TL;DR: In this paper , two types of fibres that can be recycled from solid waste are selected: glass fibre (GF) and polypropylene fibre (PF) through indoor shear strength and dry-wet cracking tests.
Journal ArticleDOI
Fresh, Mechanical, and Durability Behavior of Fly Ash-Based Self Compacted Geopolymer Concrete: Effect of Slag Content and Various Curing Conditions
TL;DR: In this article , the influence of various curing conditions and slag inclusion on the fresh, mechanical, and durability properties of self-compacting geopolymer concrete (SCGC) based on fly ash (FA) was evaluated.
Journal ArticleDOI
Effect of Graphene Oxide and Fly Ash on Frost Resistance of the Steel Fiber Reinforced Concrete
TL;DR: In this article , the effects of graphene oxide and fly ash on the pore distribution and morphology of steel fiber reinforced concrete are discussed, and the results show that the properties of ordinary SFRC are the worst under freezing and thawing; as FA admixture increases, the porosity decreases; with FA of 30% and GO of 0.03%, the GO-FA-SFRC has the best frost resistance.
References
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Book
Concrete: Microstructure, Properties, and Materials
P.K. Mehta,Paulo J.M. Monteiro +1 more
TL;DR: Concrete: Microstructure, Properties, and Materials as mentioned in this paper provides complete details on the microstructure-property relationship approach to provide scientific explanation for the strength and durability of concrete.
What a Waste : A Global Review of Solid Waste Management
TL;DR: In this paper, the authors estimate that the amount of municipal solid waste (MSW) generated by urban populations is growing even faster than the rate of urbanization and that by 2025 this will likely increase to 4.3 billion urban residents.
Journal ArticleDOI
Recycling and recovery routes of plastic solid waste (PSW): A review
TL;DR: Although primary and secondary recycling schemes are well established and widely applied, it is concluded that many of the PSW tertiary and quaternary treatment schemes appear to be robust and worthy of additional investigation.
Journal ArticleDOI
Solid waste management challenges for cities in developing countries
TL;DR: In this article, a combination of methods was used in order to assess the stakeholders and the factors influencing the performance of waste management in the cities, in more than thirty urban areas in 22 developing countries in 4 continents.
Journal ArticleDOI
Fibre reinforced cement-based (FRC) composites after over 40 years of development in building and civil engineering
TL;DR: In this paper, the main fields of application of FRC composites are examined and future perspectives discussed, and some attention is paid to computation methods and composite materials' design approaches.