Hierarchically Porous Bio Carbon Based Composites For High Electromagnetic Shielding Performance
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Hierarchically Porous Bio-Carbon Based Composites for High Electromagnetic Shielding Performance
This book highlights the preparation and characterization of efficient electromagnetic shielding composites containing bio-carbon derived from natural loofah with unique three-dimensional porous structures by means of entire structure design of composites according to shielding theory. The synergistic effect of multifunctional nanoparticles and bio-carbon on electromagnetic shielding mechanism, mechanical performance, and thermal stability of composites obtained has been holistically investigated. The discovery of this renewable, environmentally friendly, and inexpensive bio-carbon represents a new class of conductive materials with multi-interfaces and unravels further research and development of a wide variety of new electromagnetic shielding material systems with potential commercial applications ranging from electronic devices to energy management.
Porous Nanocomposites for Electromagnetic Interference Shielding
Porous Nanocomposites for Electromagnetic Interference Shielding thoroughly discusses the fabrication, processing and design parameters of advanced materials for electromagnetic pollution suppression for high-frequency electronics. The book provides readers with an understanding of the important concepts and relevant advances in the engineering of porous nanocomposites for enhanced microwave absorption and EMI shielding. Porous materials reviewed include foams and aerogels which offer a robust and lightweight solution to design and fabricate microwave absorbers that can be a potential solution to stifle electromagnetic (EM) pollution. The aim of this book is to review the recent advances in the area of porous nanocomposites that have the ability to absorb EM radiation and thereby suppress EM pollution. It will be ideal for materials scientists and engineers working in academia, research and development in industry. - Reviews the latest advances in the fabrication, processing, and design of porous nanocomposites for enhanced microwave absorption and EMI shielding applications - Provides key information on the most relevant porous nanocomposites for EMI shielding, including aerogels and foams derived from polymers, ceramics, carbon, and other advanced materials - Discusses life cycle analysis and recycling considerations of porous nanocomposites
Nanocomposite Manufacturing Technologies
Author: Alokesh Pramanik
language: en
Publisher: Woodhead Publishing
Release Date: 2025-01-27
Nanocomposite Manufacturing Technologies provides the latest research in innovative manufacturing methods to produce nanocomposite materials for a range of applications. Nanocomposite material research has advanced rapidly in the past decade, revealing important insights into the nature of fiber or particle reinforcements on a nanoscale, unique properties, and specific new-generation uses. Emerging techniques such as additive manufacturing, friction stir processing, and rapid prototyping are opening a new era for nanocomposite manufacturing, and this comes with certain challenges. This book collates the most important of related research findings into a single volume and presents them alongside the latest advances in manufacturing technology to provide a coherent resource for students, researchers, and industrial R&D staff to navigate this field. Detailed descriptions of nanocomposite manufacturing processes help readers to understand the differences between them and to choose which process or combination of processes will lead to the material that solves a specific design challenge and advances product development. - Covers a wide range of applications in different industries - Describes novel methods for fabrication of nanocomposite materials such as additive manufacturing, friction stir processing, and rapid prototyping - Provides a detailed, fundamental understanding of key parameters for the improvement of processibility, morphology, and properties in nanocomposites