4D Printing of Composites: Methods and Applications provides comprehensive coverage of the theory behind this emerging technology, its impact on materials development, functional characterization, and the technical details required for readers to investigate novel emerging applications. The advantages and limitations of the technology are discussed in detail as well as laboratory developments, industrial implications, commercialization, and avenues for future development. The book will be a valuable reference resource for academic and industrial researchers working in materials science, mechanical engineering, and product design and those working in composite materials development and manufacturing engineering in various industries.
Synthetic and Mineral Fibers, Their Composites and Applications reviews recent advances and technological developments in this important research field. The book provides an up-to-date record of significant research findings and observations along with an update on current and future potential applications. The book provides vital information on recent advancements, modern processing technologies, manufacturing, and applications and summarizes lifecycle and performance parameters for these types of composites.This book will be a valuable reference resource for academic and industrial researchers and materials scientists and engineers working in the development of polymer composite materials reinforced with synthetic and mineral fibers for applications in aerospace, medical, defense, automotive and construction sectors.
Nanocarbon polymer biocomposites have gained increased attention from both researchers and manufacturers due to the significant improvement in their physico-mechanical, thermal and barrier properties when compared to conventional materials. Their dimensions, biodegradable character, cost-effectiveness, and sustainability are among the main drivers for increasing demand.However, it is difficult to achieve uniform dispersion between the carbon filler and matrix as it easily forms agglomerations. Production of nanocarbon polymer biocomposites with high mechanical and thermal properties is also limited, but there has been rapid progress in processing possibilities to produce nanocomposites based on various biodegradable fillers.Advanced Nanocarbon Polymer Biocomposites: Sustainability Towards Zero Biowaste collects all these novel scientific findings in one place. It discusses in detail their physical, chemical, and electrical properties and presents the latest research findings on nanocarbon polymer biocomposites with filler loadings and their improvement on compatibility. The book will be of great interest for those researchers who are concerned with the production and use of nanocarbon polymer biocomposites as a new innovative advanced material.
Non-halogenated Flame-Retardant Technology for Epoxy Resins, Thermosets and Composites provides a comprehensive and up-to-date review of the latest advances and technological developments in the field. Chapters cover important flame-retardant systems based on phosphorus, nitrogen, silicon, and boron as well as novel flame retardant epoxy nanocomposites such as graphene, graphitic carbon nitride, MoS2, phosphorene, CNTs, LDHs, and POSS. The use of flame retardant epoxy thermosets and composites in varying applications are also covered, for example, in coatings and paints, in electric and electronic applications, and in aviation and automotive sectors.This comprehensive book will be an essential reference resource for academic and industrial researchers as well as materials scientists and polymer engineers. It will also be ideal for anyone working in the development of flame retardant epoxy-based materials.
Advances in Functionalized Polymer Nanocomposites: From Synthesis to Applications presents a detailed review on the synthesis, fundamental chemistry, properties, and applications of these high-performance materials. The book's introductory chapter provides a brief overview of the various types of organic and inorganic nanofillers used for the synthesis of polymer nanocomposites. Emphasis is placed on their fundamental chemistry, processing methods, functionalization, and/or surface modification strategies. The dispersion state and their specific interaction with polymer matrices is also discussed in detail, as well as characterization techniques for functionalized nanofillers and functionalized polymer nanocomposites, and their properties, and applications.The book will be a valuable reference source for scientists, engineers, and postgraduate students working in the field of polymer science and technology, materials science and engineering, composites, and nanocomposites.
Nanocomposites for Environmental, Energy and Agricultural Applications presents a comprehensive overview of recent developments and prospects for nanocomposites in sustainable/green energy production, water/wastewater treatment as well as crop production.Each chapter introduces the fundamental principles as well as the design and characterization of nanocomposites for various applications. This includes detailed discussions of nanocomposites technology, including mixed matrix membranes for water and gas separation, nanohybrid catalysts for organic pollutants degradation and sustainable energy production as well as advanced nanocomposites of different structural dimensions (0D, 1D, 2D and 3D) for agricultural utilization.The book also discusses the challenges of lab-based research towards industrial implementation and related case studies based on pilot and full-scale processes. At the end of each chapter, future opportunities for improvement will be provided to offer researchers a new research direction. The book will be a practical guide for researchers and scientists working in the fields of nanotechnology and nanomaterials science and technology.
Additive Manufacturing of Polymer-based Composite Materials: Materials, Processes, and Properties presents the latest developments in additive manufacturing of polymer matrix composites and illustrates the large range of composite materials that can be obtained. Different technologies are presented with their own specificities such as: fused filament fabrication, wet fiber placement, stereolithography, and direct-ink-writing. Composites with chopped or continuous reinforcement, with synthetic or natural fibers, with thermoplastic or thermoset resin are compared and described in detail. Their thermal, physical, electrical, and mechanical properties are discussed.The book is dedicated to professionals involved in engineering design and production, as well as industrial communities who want to gain in-depth knowledge in the field of 3D printed composites.
Biophotonics and Biosensing brings together the knowledge of the basic principles of the field of light–biological tissue interaction, detection methods, data processing techniques, and research, diagnostic, and clinical applications. It is suitable for new entrants to the field, while also highlighting the latest developments for experts. This volume includes perspectives by leading experts from the biophotonics and biosensing, biomedical engineering, and data science communities.The book provides a basic grounding in the key theoretical principles and practical components of biophotonics and biosensing. Working principles of devices used in spectroscopy, microscopy, and optical sensing are presented, along with their application domains. The reader will learn about existing microscopy-based techniques used in biomedical applications for diagnosis and get to know different signal- and image-processing algorithms, including the state of the art in artificial intelligence approaches, as used in biophotonics. Finally, the book describes through concrete examples, including sample preparation and measurement approaches, how the field has developed, thanks to the integration of biophotonics and optical biosensing with advanced signal and image-processing.
Advanced Ceramics for Photocatalytic Membranes: Synthesis Methods, Characterization and Performance Analysis, and Applications in Water and Wastewater Treatment reviews recent research on the application and use of advanced ceramic materials in photocatalytic membrane processes. Sections cover current developments in photocatalytic membrane processes, synthesis and fabrication techniques using either physical or chemical approaches, diverse characterization methods and performance evaluations, and various types of environmental applications. The book is not only limited to the conceptual theory, it also gives a detailed review of recent progress in materials science. Readers will find applications in different disciplines, i.e., chemistry, physics, and mechanics that are critically required in modern science and engineering. This across-the-board briefing on the field is suitable for use as a major reference, as well as a knowledge sharing tool.
Structural Health Monitoring/Management (SHM) in Aerospace Structures provides readers with the spectacular progress that has taken place over the last twenty years with respect to the area of Structural Health Monitoring (SHM) Management. The SHM field encompasses transdisciplinary areas, including smart materials, sensors and actuators, damage diagnosis and prognosis, signal and image processing algorithms, wireless intelligent sensing, data fusion, and energy harvesting. This book focuses on how SHM techniques can be applied to aircraft, mechanical and civil engineering structures with particular emphasis on composite materials. This will be a valuable reference resource for R&D managers, materials scientists, and engineers working in the aerospace sector, for researchers and system designers working in industry, and for academia and government research agencies developing new systems for the SHM of aerospace, mechanical, and civil engineering structures.