Review of composite materials and applications

Materials Today Proceedings, Journal Year: 2023, Volume and Issue: unknown

Published: Oct. 1, 2023

Language: Английский

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Recycling of wind turbine blades through modern recycling technologies: A road to zero waste

Renewable energy focus, Journal Year: 2023, Volume and Issue: 44, P. 373 - 389

Published: Feb. 6, 2023

Language: Английский

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Recent developments on natural fiber concrete: A review of properties, sustainability, applications, barriers, and opportunities

Developments in the Built Environment, Journal Year: 2023, Volume and Issue: 16, P. 100255 - 100255

Published: Oct. 18, 2023

To reduce the carbon footprint of traditional concrete materials, natural fiber is vital. This study systematically analyzed 196 peer-reviewed papers using literature review method to understand fresh properties, mechanical durability, thermal conductivity, sound absorption sustainability, applications, barriers, and opportunities for concrete. The findings indicate that reduces cracking rate, increasing tensile strength. Although fibers enhance stress distribution within concrete, its stability, they compressive Additionally, 85.7% concretes exhibit considerable environmental benefits; however, 28.6% 43% reviewed studies effective economic social respectively. Moreover, this demonstrates following potential utilization: 60% in road pavements 30% residential buildings. However, still predominantly utilized laboratory stage. perspective noteworthy: summarizes barriers impede application develops relevant recommendations.

Language: Английский

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Biomaterials technology and policies in the building sector: a review

Environmental Chemistry Letters, Journal Year: 2024, Volume and Issue: 22(2), P. 715 - 750

Published: Jan. 29, 2024

Abstract Traditional building materials have some drawbacks in the construction industry, particularly terms of greenhouse gas emissions and energy consumption. Biomaterials derived from renewable sources are a promising alternative, significantly reducing effect enhancing efficiency. However, traditional still dominate sector, there is lack understanding among policymakers developers regarding biomaterials. Here, we review biomaterials their policies life cycle assessment through case studies. Bio-based potential to reduce over 320,000 tons carbon dioxide by 2050. They also exhibit advantages like decreasing water absorption 40%, consumption 8.7%, acoustic 6.7%, improving mechanical properties. We summarize recent advancements mycelial materials, bioconcrete, natural fibers, fiber-reinforced composites. explore contributions nanotechnology microalgae technology biomaterials' thermal insulation eco-friendliness.

Language: Английский

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Potential of lignocellulosic fiber reinforced polymer composites for automobile parts production: Current knowledge, research needs, and future direction

Heliyon, Journal Year: 2024, Volume and Issue: 10(3), P. e24683 - e24683

Published: Jan. 19, 2024

In recent years, there has been a notable surge in research focusing on the use of natural fiber-reinforced polymer composites (NFRPCs) automobile industry. These materials offer several advantages over their synthetic counterparts, including lightweight properties, renewability, cost-effectiveness, and environmental friendliness. This increasing interest NFRPCs within automotive sector is primarily aimed at overcoming challenges that have thus far limited industrial applications compared with conventional composites. paper presents comprehensive overview potential sustainability lignocellulosic-based It examines current state knowledge, identifies needs existing limitations, provides insights into future perspectives. review shows that, while lignocellulosic fibers hold great promise as sustainable, high-performance, cost-effective alternatives to traditional reinforcing fibers, continuous needed further address issues such fiber-matrix compatibility, processing techniques, long-term durability concerns, general property improvement. advancements are essential meet performance demand for eco-friendly, renewable, energy-efficient design.

Language: Английский

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ADVANCED MATERIALS FOR SUSTAINABLE CONSTRUCTION: A REVIEW OF INNOVATIONS AND ENVIRONMENTAL BENEFITS

Engineering Science & Technology Journal, Journal Year: 2024, Volume and Issue: 5(1), P. 201 - 218

Published: Jan. 24, 2024

The field of sustainable construction has witnessed a paradigm shift with the advent advanced materials that not only enhance structural performance but also contribute significantly to environmental conservation. This paper provides comprehensive review innovations in for construction, elucidating their benefits. In recent years, researchers and industry professionals have focused on developing reduce impact activities. explores myriad materials, including limited high-performance concrete, green composites, recycled polymers. High-performance concrete formulations integrate admixtures supplementary cementitious resulting structures superior strength durability while minimizing resource consumption. Green composed natural fibers bio-based resins, emerged as alternative traditional materials. These composites exhibit impressive mechanical properties possess reduced carbon footprint, aligning principles eco-friendly practices. Additionally, utilization polymers derived from post-consumer waste represents significant stride towards circular economy principles, addressing concerns related plastic pollution. Environmental benefits these are multifold. reduction raw material extraction, energy consumption, greenhouse gas emissions associated production more industry. Furthermore, enhanced built leads extended service life maintenance requirements, further mitigating over cycle. integration elevates aligns global efforts minimize ecological footprint environment. serves valuable researchers, practitioners, policymakers seeking insights into latest advantages realm construction. Keywords: Materials, Sustainable Construction, Innovation, Environmental, Advanced, Review.

Language: Английский

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Beyond the cradle – Amidst microplastics and the ongoing peril during pregnancy and neonatal stages: A holistic review

Journal of Hazardous Materials, Journal Year: 2024, Volume and Issue: 469, P. 133963 - 133963

Published: March 6, 2024

Language: Английский

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Eco-Friendly Packaging Innovations: Integrating Natural Fibers and ZnO Nanofillers in Polylactic Acid (PLA) Based Green Composites - A Review

Polymer-Plastics Technology and Materials, Journal Year: 2024, Volume and Issue: 63(12), P. 1645 - 1681

Published: May 27, 2024

The past few years have witnessed a significant surge in research focused on sustainable food packaging, driven by consumer ecological awareness. Food packaging can be categorized as functional, which requires resistance to oxygen, water, and bacteria, high-performance, demands strong mechanical properties. A notable trend has resulted the emergence of green composites, due their intrinsic bio-based biodegradable nature. Among these there been growing interest utilizing poly (lactic acid) (PLA)-based composites for high-performance particularly through incorporation natural fibers reinforcement. In parallel, use zinc oxide (ZnO) nanofillers PLA-based gained attention field functional packaging. However, noteworthy gap persists literature concerning materials demanding both properties, with combinations ZnO-functionalizing fillers within PLA matrix. This review intends explore effects ZnO films, well effectiveness reinforcements matrices. also emphasizes need future integrating matrix active rigid

Language: Английский

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Extraction and characterization of Bougainvillea glabra fibers: A study on chemical, physical, mechanical and morphological properties

International Journal of Biological Macromolecules, Journal Year: 2024, Volume and Issue: 275, P. 133787 - 133787

Published: July 9, 2024

Language: Английский

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Sustainable Innovation: Fabrication and Characterization of Mycelium-Based Green Composites for Modern Interior Materials Using Agro-Industrial Wastes and Different Species of Fungi

Polymers, Journal Year: 2024, Volume and Issue: 16(4), P. 550 - 550

Published: Feb. 18, 2024

Mycelium-based bio-composites (MBCs) represent a sustainable and innovative material with high potential for contemporary applications, particularly in the field of modern interior design. This research investigates fabrication MBCs materials using agro-industrial wastes (bamboo sawdust corn pericarp) different fungal species. The study focuses on determining physical properties, including moisture content, shrinkage, density, water absorption, volumetric swelling, thermal degradation, mechanical properties (bending, compression, impact, tensile strength). results indicate variations content shrinkage based species substrate types, bamboo exhibiting lower shrinkage. obtained density values range from 212.31 to 282.09 kg/m3, comparable traditional materials, suggesting diverse fields, especially as elements. Water absorption swelling demonstrate influence species, although they do not significantly impact characteristics decoration materials. Thermal degradation analysis aligns established patterns, showcasing suitability various applications. Scanning electron microscope observations reveal morphological features MBCs, emphasizing role mycelia binding particles. Mechanical exhibit bending, strength, demonstrating compatibility used Those produced L. sajor-caju G. fornicatum show promising this context. Particularly noteworthy are their superior compression surpassing observed certain synthetic foams multiple times. Moreover, reveals biodegradability reaching standards environmentally friendly A comprehensive comparison further supports material. Challenges standardization, production scalability, market adoption identified, need ongoing research, engineering advancements, biotechnological innovations. These efforts aim enhance MBC promoting sustainability while also facilitating expansion into mass within construction market.

Language: Английский

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