Effect of the incorporation of plastic waste on the mechanical properties of composite materials

Safer, Omar; Chaib, Ouaddah; Mostefa, Adda Hadj; Dahmane, Mouloud; Amer, Adem Ait Mohamed; Salhi, Mohamed; Benadouda, Mourad; Latroch, Noureddine; Safa, Abdelkader

doi:10.54021/seesv5n1-125

SEES

2024

DOI: 10.54021/seesv5n1-125

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Effect of the incorporation of plastic waste on the mechanical properties of composite materials

Omar Safer,

Ouaddah Chaib,

Adda Hadj Mostefa

et al.

Abstract: Through this scientific research, we have tried to study the effect of the incorporation of plastic waste on the mechanical properties of concrete, in order to obtain good concrete with high resistance at a lower cost. To carry out this work, we adopted the following steps: Knowledge of the properties of concrete, which contains plastic waste of High Density Polyethylene (HDPE). Thus, the natural aggregate was replaced by concrete formulated with plastic waste in partial substitution varying between 0%, 10% an… Show more

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2024

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Cited by 4 publications

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Correlation between destructive and non-destructive evaluation to study of plastic waste aggregate mortar: a case study of mechanical proprieties

Latroch,

Benosman,

Badache

et al. 2024

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Non-destructive evaluation using ultrasonic pulse velocity (UPV) testing has extensive applications in the cement materials industry. Ultrasonic pulse velocity (UPV) test is accepted as alternative to destructive testing to determine the compressive strength, dynamic modulus of elasticity, and Poisson’s ratio, which are needed for structural design. In modern construction technology, the use of Plastic waste (PW) as a partial replacement to natural aggregates in a mortar mix is growing in popularity primarily because it reduces the initial capital cost of raw materials and the associated conservation in environment. In this regard, this study explains the correlations between mechanical proprieties, and UPV tests for mortar contains 25%, 50%, and 75% of waste aggregate of plastic. Mortar based on Plastic Waste (MPW) specimens were tested by direct, semi-direct, and indirect UPV. UPV measurements can be effectively used to determine the dynamic modulus of elasticity and Poisson’s ratio of Mortar based on Plastic Waste MPW. The dynamic elastic modulus and the Poisson’s ratio decreases for the same mortar composite when at increasing PW content. Thus, the incorporation of PW particles into the cement matrix confirms the capacity of composites to reduce the sound intensity and damp vibrations inside the composites. The results of this study will be significant for non-destructive evaluations of MPW, while additional recommendations for future studies are presented at the end of the paper.

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Correlation between destructive and non-destructive evaluation to study of plastic waste aggregate mortar: a case study of mechanical proprieties

Latroch,

Benosman,

Badache

et al. 2024

SEES

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An experimental and numerical analysis study of roller-compacted concrete based on recycled asphalt pavement

Fadhila,

Salhi,

Toufik

et al. 2024

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The contribution of this study is to examine the potential of using reclaimed asphalt pavement (RAP) as a replacement for natural aggregates (NA) in the production of roller-compacted concrete (RCC). In several countries, recycling old asphalt pavements has gained interest due to its economic and environmental advantages. However, in Algeria, large quantities of RAP are generated annually, yet they are rarely quantified or reused. This research investigates the use of RAP as coarse aggregates, testing five different replacement levels (0%, 25%, 50%, 75%, and 100%). The properties of fresh concrete, such as density, were measured, along with the impact of curing temperatures (20°C, 40°C, and 60°C) on the hardened properties, including compressive strength and modulus of elasticity. The results reveal that it is possible to produce RCC with up to 50% RAP, providing significant environmental benefits by reducing waste and preserving natural resources. These studies confirm that using up to 50% RAP in RCC is both feasible and environmentally beneficial, while maintaining good concrete performance. As part of the study, an accurate numerical model simulating the mechanical behavior of RCC, including time-dependent deformations and the non-linear stress-strain relationship, was created using finite element analysis in ANSYS-FEM. The purpose of this model is to highlight how RCC with RAP can be used in pavement applications.

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Experimental study on the impact of using ceramic and plastic wastes on mortar performance

Abdelli,

Kennouche,

Boudjellal

et al. 2024

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The construction industry, in search of sustainable and economical solutions, is increasingly turning to waste recovery to reduce its environmental impact. Ceramic waste, mainly from the production and demolition of tiles and similar materials, and plastic waste from various industrial sectors, is abundant and often poorly managed. The purpose of this work is to investigate the contribution of industrial waste to improving mortar performance by examining the use of ceramic waste as a partial replacement for cement and plastic waste as a partial replacement for sand. Tests on density, compressive strength, flexural tensile strength, water absorption, ultrasonic pulse velocity, and the effect of elevated temperature were carried out on the mixes studied. The results showed that the optimum mix for flexural strength was the one containing 20% ceramic waste at 28 days. The wave propagation velocity results show that mixes containing only ceramic waste are of good quality, with propagation velocities ranging from 3500 m/s to 4500 m/s. Mixtures containing only 10% or 20% ceramic exhibit better flexural and compressive strength than normal mortar at 150°C. This work contributes to sustainable development by eliminating ceramic and plastic waste from the environment.

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Effect of the incorporation of plastic waste on the mechanical properties of composite materials

Cited by 4 publications

References 65 publications

Correlation between destructive and non-destructive evaluation to study of plastic waste aggregate mortar: a case study of mechanical proprieties

Correlation between destructive and non-destructive evaluation to study of plastic waste aggregate mortar: a case study of mechanical proprieties

An experimental and numerical analysis study of roller-compacted concrete based on recycled asphalt pavement

Experimental study on the impact of using ceramic and plastic wastes on mortar performance

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