Sustainability of Green and Eco-friendly Composites

This research explores the processing methods of green and eco-friendly composites, discusses the development and optimization of green nanocomposites for sustainable manufacturing, collates modern green and eco-friendly composites research from theory to application, covers hybridization of reinforced fibers on the performance of green and eco-friendly composites, and analyzes and discusses the calculation of carbon footprint and Life Cycle Assessment of composite materials.

Format: Hardback
Length: 204 pages
Publication date: 31 August 2023
Publisher: Taylor & Francis Ltd

Green and eco-friendly composites have gained significant attention in recent years due to their potential to reduce environmental impact and promote sustainable manufacturing practices. Various processing methods have been developed to enhance the properties and performance of these materials, while also minimizing their ecological footprint. In this article, we will explore different processing methods of green and eco-friendly composites, discuss the development and optimization of green nanocomposites for sustainable manufacturing, collate modern green and eco-friendly composites research from theory to application, cover hybridization of reinforced fibers on the performance of green and eco-friendly composites, and analyze and discuss the calculation of carbon footprint and Life Cycle Assessment of composite materials.

Processing Methods of Green and Eco-Friendly Composites:
Green and eco-friendly composites are typically produced through a combination of traditional and innovative processing methods. Some common processing methods include resin infusion, vacuum-assisted resin infusion, and compression molding. Resin infusion involves the impregnation of fiber reinforcements with a resin matrix, while vacuum-assisted resin infusion utilizes vacuum pressure to enhance the flow of resin and improve the fiber-matrix bond. Compression molding involves the shaping of composite materials under high pressure and temperature, which results in a dense and structurally sound product.

Development and Optimization of Green Nanocomposites for Sustainable Manufacturing:
Green nanocomposites are a promising class of materials that combine the benefits of traditional composites with the enhanced properties of nanomaterials. These materials are characterized by their small size, which allows for better dispersion of nanoparticles within the matrix, leading to improved mechanical, thermal, and electrical properties. Development and optimization of green nanocomposites for sustainable manufacturing involve the selection of appropriate nanoparticles, the development of efficient processing methods, and the evaluation of their environmental impact.

Collation of Modern Green and Eco-Friendly Composites Research from Theory to Application:
Recent research in green and eco-friendly composites has focused on various aspects, including the development of new materials, the optimization of processing methods, and the evaluation of their performance in real-world applications. Some notable research areas include the use of biodegradable and renewable materials, the development of hybrid composites with multiple reinforcements, and the investigation of the impact of fiber orientation on the mechanical properties of composite materials.

Hybridization of Reinforced Fibers on the Performance of Green and Eco-Friendly Composites:
Hybridization of reinforced fibers is a promising approach to enhance the performance of green and eco-friendly composites. By combining different types of fibers, such as natural fibers and synthetic fibers, composite materials can be designed to have specific properties that are tailored to specific applications. Hybridization of reinforced fibers can improve the mechanical properties, thermal properties, and environmental impact of composite materials, making them more suitable for a wide range of applications.

Analysis and Discussion of Calculation of Carbon Footprint and Life Cycle Assessment of Composite Materials:
Calculating the carbon footprint and Life Cycle Assessment of composite materials is an important step in evaluating their environmental impact. These assessments involve the calculation of the energy and materials used in the production of composite materials, as well as the emissions and waste generated during their lifecycle. By analyzing these data, it is possible to identify areas for improvement and optimize the manufacturing process to reduce the environmental impact of composite materials.

Conclusion:
Green and eco-friendly composites have the potential to revolutionize the manufacturing industry by reducing environmental impact and promoting sustainable practices. Various processing methods have been developed to enhance the properties and performance of these materials, while also minimizing their ecological footprint. The development and optimization of green nanocomposites for sustainable manufacturing, the collation of modern green and eco-friendly composites research from theory to application, the hybridization of reinforced fibers on the performance of green and eco-friendly composites, and the analysis and discussion of the calculation of carbon footprint and Life Cycle Assessment of composite materials are all important areas of research that will contribute to the further development of this field. As we move towards a more sustainable future, it is essential to continue investing in research and development in green and eco-friendly composites to ensure that they become a viable alternative to traditional materials.

Weight: 570g
Dimension: 234 x 156 (mm)
ISBN-13: 9781032224527