Additive Manufacturing for Biocomposites and Synthetic Composites focuses on processes, engineering, and product design applications of biocomposites and synthetic composites in additive manufacturing. It discusses preparation and material characterization and selection, as well as future opportunities and challenges. Reviews the latest research on the development of composites for AM and preparation of composite feedstocks. Offers an analytical and statistical approach for the selection of composites for AM, including characterization of material properties. Emphasizes the use of environmentally friendly composites. Analyzes the lifecycle including costs. Considers potential new fibres, their selection, and future applications. This book provides a comprehensive overview of the application of advanced composite materials in AM and is aimed at researchers, engineers, and advanced students in materials and manufacturing engineering and related disciplines.

Mineral-filled polymer composites are widely used in industries across the globe, and applications are continuously increasing in sectors such as shipping, manufacturing and renewable energy. One of two volumes comprising the Mineral-Filled Polymer Composites Handbook, this volume provides an overview of the latest research and future directions of advanced mineral fiber-reinforced polymer composites, focused specifically on materials properties. It covers fundamentals, recent progress and new materials involved in mineral-filled polymer composites and includes a wide-ranging list of chapters authored by an international team of experts. This book: Examines the properties of a wide range of materials, from macro- to nano-sized Highlights resources for bio-based minerals production and compares bio-based minerals with commercial mineral fillers Covers novel synthesis methods Discusses effects of aging on properties Describes using halloysite and montmorillonite to improve composite properties and the potential of using mineral fillers to enhance the properties of biopolymer and synthetic polymers This book serves as an excellent reference guide for researchers, advanced students, academics and industry professionals interested in the synthesis of mineral-filled polymer and biopolymer composites, as well as those pursuing research in the broad fields of composite materials, polymers, organic/inorganic hybrid materials and nano-assembly.

Mineral-filled polymer composites are increasingly used for various applications, including automotive, construction, biomedical, maritime, sport and ballistic, due to the advantages of low cost, light weight, excellent rigidity and high mechanical strength. One of two volumes comprising the Mineral-Filled Polymer Composites Handbook, this volume provides an overview of the latest research, trends, applications and future directions of advanced mineral fiber-reinforced polymer composites. It focuses specifically on material selection, processing and applications. This book: Emphasizes the principles governing the behavior of mineral-filled composite materials in the field of engineering and their applications Covers systematic material selection tools such as analytical hierarchy process (AHP), analytical network process (ANP), and technique of ranking preferences by similarity of the ideal solution (TOPSIS) Reviews the use of these materials for various engineering applications Features chapters looking at fabrication techniques and frictional properties Details current research in polymer nanocomposites and particulate polymer composites This book serves as an excellent reference guide for researchers, advanced students, academics and industry professionals interested in the synthesis of mineral-filled polymer and biopolymer composites, as well as those pursuing research in the broad fields of composite materials, polymers, organic/inorganic hybrid materials and nano-assembly.

Having a solid understanding of materials recycling is of high importance, especially due to the growing use of composites in many industries and increasingly strict legislation and concerns about the disposal of composites in landfills or by incineration. Recycling of Plastics, Metals, and Their Composites provides a comprehensive review of the recycling of waste polymers and metal composites. It provides the latest advances and covers the fundamentals of recycled polymers and metal composites, such as preparation, morphology, and physical, mechanical, thermal, and flame-retardancy properties. FEATURES Offers a state-of-the-art review of the recycling of polymer composites and metal composites for sustainability Describes a life-cycle analysis to help readers understand the true potential value and market for these recycled materials Details potential applications of recycled polymer and metal composites Includes the performance of natural fiber-reinforced recycled thermoplastic polymer composites under aging conditions and the recycling of multi-material plastics Covers recycling technologies, opportunities, and challenges for polymer-matrix composites This book targets technical professionals in the metal and polymer industries as well as researchers, scientists, and advanced students. It is also of interest to decision makers at material suppliers, recycled metal and polymer product manufacturers, and governmental agencies working with recycled metal and polymer composites.

Presenting a comprehensive overview of the field, Biofiller-Reinforced Biodegradable Polymer Composites examines biodegradable composites derived from biofiller and biodegradable polymers while providing critical information for efficient use of biocomposites developed from natural resources. Discusses advanced techniques for the use of both biofiller and biodegradable polymers as the matrix for composites. Highlights application of both natural fiber and natural matrix for composites in the development of environmentally friendly and sustainable materials. Introduces the basics of biocomposites, the processing and characteristics of new composite materials, and new combinations of composites such as soy protein and nanocellulose. Elaborates on the introduction of new materials to develop biodegradable polymers. This book has been written for researchers, advanced students, and professional engineers and materials scientists working in the area of bio-based polymers, natural fiber composites, and biocomposites.

Composites in Biomedical Applications presents a comprehensive overview on recent developments in composites and their use in biomedical applications. It features cutting-edge developments to encourage further advances in the field of composite research. Highlights a completely new research theme in polymer-based composite materials Outlines a broad range of different research fields, including polymer and natural fiber reinforcement used in the development of composites for biomedical applications Discusses advanced techniques for the development of composites and biopolymer-based composites Covers fatigue behavior, conceptual design in ergonomics design application, tissue regeneration or replacement, and skeletal bone repair of polymer composites Details the latest developments in synthesis, preparation, characterization, material evaluation, and future challenges of composite applications in the biomedical field This book is a comprehensive resource for advanced students and scientists pursuing research in the broad fields of composite materials, polymers, organic or inorganic hybrid materials, and nano-assembly.

Pulping and Papermaking of Non-wood Plant Fibres presents the latest technologies associated with the papermaking process. With chapters specific to each non-wood species, the book provides step-by-step guidance on processes such as pulping, bleaching, blending and beating. Non-wood fibers are practical for pulp and paper production due to their chemical content of cellulose, hemicellulose and lignin percentages. Beginning with a general overview of non-wood fibers in the papermaking process, chapters then take a deep dive into different raw materials and their processes, including bamboo, corn stalk, pineapple leaves and sugarcane. This book is an essential resource for researchers, scientists and industry specialists.

Artificial neural networks (ANN) can provide new insight into the study of composite materials and can normally be combined with other artificial intelligence tools such as expert system, genetic algorithm, and fuzzy logic. Because research on this field is very new, there is only a limited amount of published literature on the subject. Compiling information from diverse sources, Composite Materials Technology: Neural Network Applications fills the void in knowledge of these important networks, covering composite mechanics, materials characterization, product design, and other important aspects of polymer matrix composites. Light weight, corrosion resistance, good stiffness and strength properties, and part consolidation are just some of the reasons that composites are useful in areas including civil engineering and structure, chemical processing, management, agriculture, space study, and manufacturing. ANN has already been used to carry out design prediction, mechanical property prediction, and selection processes in the evolution of composites, but although it has already been used with great success in various branches of scientific and technological research, it is still in the nascent stage of its development. Featuring contributions from leading researchers throughout the world, this book is divided into four parts, starting with an introduction to neural networks and a review of existing literature on the subject. The text then covers structural health monitoring and damage detection in composites, addresses mechanical properties, and discusses design, analysis, and materials selection. Training, testing, and validation of experimental data were carried out to optimize the results presented in the book. This book will be an important aid to researchers as they work on the future implementation of ANN in industries such as aerospace, automotive, marine, sporting goods, furniture, and electronics and communication.

Natural fibre composites are increasingly being viewed as viable and environmentally responsible alternatives to synthetic fibre composites and plastics. Sugar Palm Biofibers, Biopolymers, and Biocomposites considers the use of sugar palm fibres for materials development and application. It offers original research on the properties and behavior of sugar palm's fibres, polymers, and biocomposites, covering mechanical, physical, thermal, chemical, environmental, morphological properties, as well as optimal design. It discusses sugar palm fibre thermosetting composites, sugar palm fibre thermoplastic composites, impregnation of sugar palm fibre, various lengths of sugar palm fibres, forms and arrangements such as particulate, continuous roving, and woven fabrics. The book also discusses innovations in commercialized products derived from sugar palm.

Oil Palm Biomass for Composite Panels: Fundamentals, Processing, and Applications explains the preparation and utilization of oil palm biomass for advanced composite panel products. It introduces the fundamentals of oil palm biomass and wood-based panel products, including basic properties, durability, deterioration, and adhesives. It also includes in-depth information on processing and treatments organized by biomass type, covering oil palm trunk and lumber, veneer, empty fruit bunches (EFBs), oil palm fronds, and other sources. Additionally, this book focuses on specific composite panel applications, explaining the utilization of oil palm biomass in specific products. Finally, current policy, economic and environmental factors, and supply considerations are discussed. The information contained in Oil Palm Biomass for Composite Panels will be of interest to researchers, scientists and advanced students in bio-based materials, polymer science, composites, wood science, forestry, and biomass, as well as industrial scientists and product designers working with oil palm biomass, wood-based products, and sustainable materials.

Kenaf fiber is gaining attention as an alternative reinforcement for composite products due to low cost, reduced environmental impact, and attractive mechanical properties. Kenaf Fibers and Composites covers the breadth of these exciting materials, from raw material preparation to application in a variety of products. It discusses fiber characterization and properties, how to prepare kenaf-based composites, and design, manufacturing, and applications. It also covers hybrid fiber composites, kenaf fiber thermosetting composites, kenaf fiber thermoplastic composites, kenaf fibers in various lengths, and forms and arrangements such as particulates, continuous roving, and woven fabrics. Cellulose-based kenaf composites and kenaf fiber-filled biopolymer composites are presented.

Design for Sustainability: Green Materials and Processes provides fundamental and practical knowledge surrounding product development applications throughout the entire lifecycle of green materials, ranging from conceptual design, material and manufacturing process selection, and environmental lifecycle assessment. In addition, several topics covering recent advances in the application of sustainable design within the automotive, building and construction, packaging and consumer product industries are also included in this book to provide practical examples of this philosophy in current applications. Lastly, a section on implementation of design for sustainability in education is added to aid readers that wish to introduce this philosophy to younger students. This book will be beneficial to researchers, students in higher education institutions, design practitioners and engineers in private and public sector organization with aspirations to develop sustainable products in the future. Design for sustainability is one of the primary focuses in human advancement nowadays, with the aim of developing products and services that meet the needs of the present without compromising the ability of future generations to meet their own needs.

Composite Materials: Concurrent Engineering Approach covers different aspects of concurrent engineering approaches in the development of composite products. It is an equally valuable reference for teachers, students, and industry sectors, including information and knowledge on concurrent engineering for composites that are gathered together in one comprehensive resource.

Synthetic and Natural Nanofillers in Polymer Composites: Properties and Applications provides a detailed review of nanofiller-based composite materials and structures and discusses their current and potential applications in industrial sectors. The book covers the mechanisms of using nanofillers as reinforcement, materials selection, properties and performance, structures, design solutions, and manufacturing techniques. A broad range of different material classes are also discussed, with an emphasis on advanced materials. Other topics covered include the development and performance analysis of hybrid composites, their lifecycle analysis, the effects of different fiber loadings, and mechanical, thermal and electrical performance. This book will be a valuable reference resource for materials scientists, engineers and academic and industrial researchers working in the field of polymer composites, specifically nanocomposites and applications based on synthetic and nanofiller-reinforced composites.

This book provides the latest developments on safety practices utilized in composite manufacturing facilities for students, workers, engineers, and other participants. It includes commentary from academic experts in the field who present cutting-edge research on advanced composite materials. Illustrations, figures, and tables are included in this book in order to make it easier for students, workers, engineers, and other participants to understand the contents of this book. The end user knows the safety and health that should be practiced in composite industry and their right in composite industry. Besides that, the composites industry players can upgrade their current safety system to the recommended practiced system. A lot of problems are solved by integrate the current system and advanced technology system from extensive research.

Nanocellulose is a versatile material that has received much attention from scientists working in a broad range of application fields, such as automotive, composites, adsorbents, paints, coatings, medical implants, electronics, cosmetics, pulp and paper, tissue engineering, medical, packaging, and aerogels. Industrial Applications of Nanocellulose and Its Nanocomposites provides an extensive, up-to-date review of this fast-moving research field. The chapters cover a wide range of aspects, including synthesis, surface modification, and improvement of properties toward target applications. The main objectives of the book are to reflect on recent advancements in the design and fabrication of advanced nanocellulose and discuss important requirements for each application, as well as the challenges that might be faced. The book also includes an overview of the current economic perspectives and safety issues, as well as future directions for nanocellulose-based materials. It will serve as a valuable reference resource for academic and industrial researchers, environmental chemists, nanotechnologists, chemical engineers, polymer chemists, materials scientists, and all those working in the manufacturing industries.

This book presents an authoritative account of the potential of advanced composites such as composites, biocomposites, composites geopolymer, hybrid composites and hybrid biocomposites in aerospace application. It documents how in recent years, composite materials have grown in strength, stature, and significance to become a key material of enhanced scientific interest and resultant research into understanding their behavior for selection and safe use in a wide spectrum of technology-related applications. This collection highlights how their unique combination of superior properties such as low density, high strength, high elastic modulus, high hardness, high temperature capability, and excellent chemical and environmental stability are optimized in technologies within these field.

Academic researchers who are working on the development of composite materials for ballistic protection need a deeper understanding on the theory of material behavior during ballistic impact. Those working in industry also need to select proper composite constituents, to achieve their desired characteristics to make functional products. Composite Solutions for Ballistics covers the different aspects of ballistic protection, its different levels and the materials and structures used for this purpose. The emphasis in the book is on the application and use of composite materials for ballistic protection. The chapters provide detailed information on the various types of impact events and the complexity of materials to respond to those events. The characteristics of ballistic composites and modelling and simulation results will enable the reader to better understand impact mechanisms according to the theory of dynamic material behavior. A complete description of testing conditions is also given that includes sensors and high-speed devices to monitor ballistic events. The book includes detailed approaches and schemes that can be implemented in academic research into solutions for ballistic protection in both theoretical and experimental fields, to find solutions for existing and next generation threats. The book will be an essential reference resource for materials scientists and engineers, and academic and industrial researchers working in composite materials and textiles for ballistic protection, as well as postgraduate students on materials science, textiles and mechanical engineering courses.

Biocomposite and Synthetic Composites for Automotive Applications provides a detailed review of advanced macro and nanocomposite materials and structures, and discusses their use in the transport industry, specifically for automotive applications. This book covers materials selection, properties and performance, design solutions, and manufacturing techniques. A broad range of different material classes are reviewed with emphasis on advanced materials and new research pathways where composites can be derived from agricultural waste in the future, as well as the development and performance of hybrid composites. The book is an essential reference resource for those researching materials development and industrial design engineers who need a detailed understanding of materials usage in transport structures. Life Cycle Assessment (LCA) analysis of composite products in automotive applications is also discussed, and the effect of different fiber orientation on crash performance. Synthetic/natural fiber composites for aircraft engine fire-designated zones are linked to automotive applications. Additional chapters include the application and use of magnesium composites compared to biocomposites in the automotive industry; autonomous inspection and repair of aircraft composite structures via vortex robot technology and its application in automotive applications; composites in a three-wheeler (tuk tuk); and thermal properties of composites in automotive applications.

Advanced Processing, Properties, and Applications of Starch and Other Bio-based Polymers presents the latest cutting-edge research into the processing and applications of bio-based polymers, for novel industrial applications across areas including biomedical and electronics. The book is divided into three sections, covering processing and manufacture, properties, and applications. Throughout the book, key aspects of sustainability are considered, including improved utilization of available natural resources, sustainable design possibilities, cleaner production processes, and waste management.

Lignocellulose for Future Bioeconomy discusses the conversion and utilization of lignocellulosic biomass. This book focuses on the utilization of lignocelluloses for various products, including biopolymers, bionanomaterials and bioproducts. Recent findings in scientific investigation, engineering, product development, economic and lifecycle analysis are discussed, as are current synthesis technologies and potential applications. The book progresses from a discussion of the potential sources of biomass, to the refinement and processing of materials. A sampling of various sustainability issues faced by industries in their production methods and a look at real world examples of the use of lignocellulose-based materials in the bioeconomy round out the discussion.

Roselle: Production, Processing, Products and Biocomposites complies the latest findings on the production, processing, products and composites of the roselle plant. The book provides researchers with the latest information on its entire use, including fibers and fruit for any application. Subjects covered include environmental advantages and challenges, the plant as a renewable resource, economic issues such as the impact of biobased medicines, biodiesel, the current market for roselle products and regulations for food packaging materials. Sections include commentary from leading industrial and academic experts in the field who present cutting-edge research on roselle fiber for a variety of industries. By comprehensively covering the development and characterization of roselle fiber as a potential to replace conventional fiber made from petroleum-based polymers, this book is a must-have resource for anyone requiring up-to-date knowledge on the lifecycle of the roselle plant.

Materials Selection for Natural Fiber Composites covers the use of various tools and techniques that can be applied for natural fiber composite selection to expand the sustainable design possibilities and support cleaner production requirements. These techniques include the analytical hierarchy process, knowledge-based system, Java based materials selection system, artificial neural network, Pugh selection method, and the digital logic technique. Information on related topics, such as materials selection and design, natural fiber composites, and materials selection for composites are discussed to provide background information to the main topic. Current developments in selecting the natural fiber composite material system, including the natural fiber composites and their constituents (fibers and polymers) is the main core of the book, with in detailed sections on various technical, environmental and economic issues to enhance both environmental indices and the industrial sustainability theme. Recent developments on the analytical hierarchy process in natural fiber composite materials selection, materials selection for natural fiber composites, and knowledge based system for natural fiber composite materials selection are also discussed.

Hole-Making and Drilling Technology for Composites: Advantages, Limitations and Potential presents the latest information on hole-making, one of the most commonly used processes in the machining of composites. The book provides practical guidance on hole-making and drilling technology and its application in composite materials and structures. Chapters are designed via selected case studies to identify the knowledge gap in hole-making operations in composites and to highlight the deficiencies of current methods. The book documents the latest research, providing a better understanding of the pattern and characterization of holes produced by various technologies in composite materials. It is an essential reference resource for academic and industrial researchers and professional involved in the manufacturing and machining of composites. In addition, it is ideal for postgraduate students and designers working on the design and fabrication of polymeric composites in automotive and aerospace applications.