Development and Characterization of a Composite Material Reinforced by Plastic Waste: Application in the Construction Sector

Halimi, Youssef

doi:10.21660/2017.39.6677

Cited by 7 publications

(5 citation statements)

References 7 publications

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“…Crushed plastic waste in different formsimpregnated particles, oriented and random fibrous, and woven reinforcementserved as base materials for reinforcement. [38] The material preparation was conducted at room temperature and followed a specific procedure: The prepared mixture was poured into an open mold to acquire the desired shape, after which the mold was sealed and the material compressed until it had fully hardened. In addition, the Figure 2 depicts the production procedure of the composite materials.…”

Section: Methodsmentioning

confidence: 99%

Modeling effective elastic and thermal conductivity of composite materials reinforced with plastic waste: Analytical and numerical approaches

et al. 2023

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The properties of materials used in building are enhanced by adding nanoparticles for improve energy efficiency. The objective of this study is to offer both numerical and analytical modeling methods of the thermal conductivity and mechanical property of composite materials. Various mineral charges were employed to reinforce the organic matrices of saturated polyester resin (UPR) with calcium carbonate (CaCo3) and expanded perlite particles. The study employs the finite‐element software COMSOL to conduct a numerical investigation of thermal transport in an elementary cell. The purpose is to ascertain the thermal conductivity of composites and examine the impact of contact resistance and the volume fraction of nanoparticles on the effective thermal conductivity. The results indicate that the numerical model proposed is consistent with the Hashin‐Shtrikman analytical model and experimental measurements. In another hand, the mechanical property is computed based on Mori‐tanaka analytical model of homogenization and finite element method by Digimat‐MF/FE, which gives enhanced elastic behavior of composite in function of volume fraction of nanoparticles, with high Young modulus and low Poisson ratio. The results indicate the performance of nanoparticles in improving thermomechanical behavior of building materials, and also in other applications.

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Section: Methodsmentioning

confidence: 99%

Modeling effective elastic and thermal conductivity of composite materials reinforced with plastic waste: Analytical and numerical approaches

et al. 2023

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“…The production of plastic materials has consecutively increased for many decades since the 1950s ( Curlee, 1986 ) due to the demand from the increasing human population. Based on federation of plastic producers “Plastics Europe”, approximately 311 million tons of long-duration degradability (200–1000 years) plastic were generated all around the world in 2014, compared with 299 million tons in 2013 ( Halimi et al, 2017 ). Based on industry data, USA, Europe, and Asia account for 85% of plastic production, the amount of plastics production is estimated to double up in the next 20 years to 600 million tonne ( Kumar, 2018 ).…”

Section: The State Of Plastic Waste Associated With Covid-19 Pandemicmentioning

confidence: 99%

Plastic waste associated with the COVID-19 pandemic: Crisis or opportunity?

Khoo

Lim

et al. 2021

Journal of Hazardous Materials

127

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“…Since the 1950s, plastics manufacturing has been steadily growing due to an evergrowing human population [27]. According to the Plastics Europe Federation, more than 311 million tonnes of longterm degradability plastic were produced in 2014, up from 299 million tonnes in 2013 [28]. 85% of plastic is produced in the United States, Europe, and Asia, according to estimates.…”

Section: Plastic Waste Scenario Before Covid-19mentioning

confidence: 99%

COVID‐19: An Accelerator for Global Plastic Consumption and Its Implications

Choudhury

Sahoo

Samanta

et al. 2022

Journal of Environmental and Public Health

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Plastic has been ingrained in our society. Repercussions on the usage of nonbiodegradable plastics and their problems have been recently realized. Despite its detrimental environmental impact, the COVID-19 epidemic has compelled worldwide citizens to increase their plastic use due to affordability and availability. The volume of hospital solid waste, particularly plastics, is overgrowing due to an unexpected increase in medical waste, culminating in the global waste management catastrophe. Henceforth, adopting good waste management practices along with appropriate technologies and viewing the current issue from a fresh perspective would be an opportunity in this current scenario. Accordingly, this review study will focus on the plastic waste scenario before and during the COVID-19 epidemic. This review also disseminates alternative disposal options and recommends practical solutions to lessen human reliance on traditional plastics. Further, the responsibilities of various legislative and regulatory authorities at the local, regional, and worldwide levels are addressed.

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Development and Characterization of a Composite Material Reinforced by Plastic Waste: Application in the Construction Sector

Cited by 7 publications

References 7 publications

Modeling effective elastic and thermal conductivity of composite materials reinforced with plastic waste: Analytical and numerical approaches

Modeling effective elastic and thermal conductivity of composite materials reinforced with plastic waste: Analytical and numerical approaches

Plastic waste associated with the COVID-19 pandemic: Crisis or opportunity?

COVID‐19: An Accelerator for Global Plastic Consumption and Its Implications

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