Towards Sustainable Recycling of Epoxy-Based Polymers: Approaches and Challenges of Epoxy Biodegradation

Klose, Leon; Meyer-Heydecke, Neele; Wongwattanarat, Sasipa; Chow, Jennifer; Pérez García, Pablo; Carré, Camille; Streit, Wolfgang; Antranikian, Garabed; Romero, Ana Malvis; Liese, Andreas

doi:10.3390/polym15122653

Cited by 16 publications

(8 citation statements)

References 128 publications

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“…Unlike the traditional linear model (production, use, and disposal), the circular economy seeks to keep materials and products in use for as long as possible, promoting reuse, repair, and recycling at the end of their life cycle [30,31]. Reuse and recycling contribute to environmental sustainability because the reduction in the extraction of new resources decreases pressure on the environment and, at the same time, reduces the amount of waste that can cause negative impacts associated with production [25]. Thus, the incorporation of recyclable and/or bio-based polymer matrices in composites can allow for recyclability, non-toxicity, and lower environmental impacts [19].…”

Section: Bcmentioning

confidence: 99%

Amazon Natural Fibers for Application in Engineering Composites and Sustainable Actions: A Review

da Silveira,

Cardoso,

Marchi

et al. 2024

Eng

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The Amazon rainforest, spanning multiple countries in South America, is the world’s largest equatorial expanse, housing a vast array of relatively unknown plant and animal species. Encompassing the planet’s greatest flora, the Amazon offers a tremendous variety of plants from which natural lignocellulosic fibers (NLFs) can be extracted. In this century, NLFs, which have long been utilized by indigenous populations of the Amazon, have garnered interest as potential reinforcements for composites, whether polymer- or cement-based, in various technical applications such as packaging, construction, automotive products, and ballistic armor. A comparison with synthetic materials like glass, carbon, and aramid fibers, as well as other established NLFs, highlights the cost and specific property advantages of Amazon natural fibers (ANFs). Notably, the sustainable cultivation and extraction of ANFs, as alternatives to deforestation and livestock pasture, contribute to the preservation of the Amazon rainforest. This review article provides a comprehensive examination of recent studies directly related to ANF-reinforced polymer matrix composites. The specific advantages, proposed applications, and reported challenges are highlighted, shedding light on the potential of these unique natural fibers.

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Section: Bcmentioning

confidence: 99%

Amazon Natural Fibers for Application in Engineering Composites and Sustainable Actions: A Review

da Silveira,

Cardoso,

Marchi

et al. 2024

Eng

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show abstract

“…It excels with large materials but can be limited when dealing with similar properties, potentially leading to contamination. Mechanical shredding, on the other hand, plays a key role in reducing material size and preparing it for further processing, making it more manageable and compatible with subsequent recycling steps [11][12][13]. Mechanical sorting struggles with similar materials and risks contamination; sorting accuracy is critical.…”

Section: Mechanical Recycling Processes and Limitationsmentioning

confidence: 99%

Biotechnological Solutions for Recycling Synthetic Fibers

Mamun,

Kuntz,

Golle

et al. 2023

The 4th International Electronic Conference on Applied Sciences

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“…A crucial advantage of epoxy resins over phenolic, polyester, and vinyl ester resins is that no volatile substances are created during curing. Additionally, compared to polyesters, epoxy resins experience less shrinkage [119]. The relative brittleness of epoxy resins, which has serious negative effects on the interlaminar characteristics of the matrix and the fiber reinforcement, is a disadvantage.…”

Section: Applications Of Natural Fiber-reinforced Polymer Composites ...mentioning

confidence: 99%

Natural Fiber Composite Filaments for Additive Manufacturing: A Comprehensive Review

Khilji,

Chilakamarry,

Surendran

et al. 2023

Sustainability

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This research explores the potential and significance of 3D printing natural fiber composite (NFC) materials. The primary objective is to investigate the mechanical, thermal, and environmental properties of NFC filaments, mainly focusing on biodegradable, renewable fibers such as jute, hemp, flax, and kenaf. In addition to studying the properties of NFCs, our research delves into the challenges associated with processing, including moisture absorption and fiber-matrix interfacial bonding. The novelty of this work lies in the convergence of traditional composite materials with the versatility of 3D printing technology. NFC filaments offer unique advantages in terms of sustainability, and we examine their potential contributions to the circular economy. By using eco-friendly NFC materials in 3D printing, we aim to present a viable, environmentally responsible alternative to conventional synthetic composites. The importance of 3D printing NFCs stems from the ways their use can align with sustainability goals. These materials provide the advantages of renewability, reduced carbon impact, and in some cases, biodegradability. Their applications extend to various industries, such as automotive, construction, and packaging, where eco-friendly materials are increasingly sought. Such applications showcase the ways in which NFC-based 3D printing can contribute to a more environmentally responsible and sustainable future. This research explores the mechanical, thermal, and environmental properties of NFC materials, highlighting their unique advantages for 3D printing and the potential to have eco-friendly applications in diverse industries.

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Towards Sustainable Recycling of Epoxy-Based Polymers: Approaches and Challenges of Epoxy Biodegradation

Cited by 16 publications

References 128 publications

Amazon Natural Fibers for Application in Engineering Composites and Sustainable Actions: A Review

Amazon Natural Fibers for Application in Engineering Composites and Sustainable Actions: A Review

Biotechnological Solutions for Recycling Synthetic Fibers

Natural Fiber Composite Filaments for Additive Manufacturing: A Comprehensive Review

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