This second volume in this set of books discusses various sustainable approaches in textiles and the fashion sector with a focus on consumerism and the supply chain. Sustainability is one of the important aspects in today's industrial context, and is no exception to textiles and fashion. Sustainability and strict adherence to the principles of sustainability has become as one of the essential needs again for any industrial sector including textiles and fashion. There are countless measures in terms of various approaches to make the textiles and fashion sector sustainable. These measures, but not limited to, ranging from innovating and implementing new fibres and raw materials, introducing innovative manufacturing methods, chemicals, processes to focus on all the possible stages of a textile product's life cycle from cradle to grave. These approaches include making the textiles and fashion sector circular and also development of new products from sustainable raw materials/processes or combination of both.

This book discusses the design of textile production within the framework Industry 4.0. Relevant research topics in the textile industry are identified and solutions are conceptualized, developed and implemented. This is followed by an evaluation of the solutions in which, among other things, the profitability is considered. Questions about the transfer of knowledge into the company complete the work. Industry 4.0 in Textile Production provides a rich investigation into and survey of textile production The informative cases studies, clear perspective, and detailed analysis make this book of great use to engineers, researchers and postgraduate students interested in the textile industry.

Textiles and computing have long been associated. High volume and low profit margins of textile products have driven the industry to invest in high technology, particularly in the area of data interpretation and analysis. Thus, it is virtually inevitable that soft computing has found a home in the textile industry. Contained in this volume are six chapters discussing various aspects of soft computing in the field of textiles and apparel.

This third of the three volume series highlights the intricate relationship in the handloom industry between its culture and the various areas of sustainability. While there have been major disruptions in this age old industry, this volume presents the design, development and environmental aspects to keep the industry moving ahead. The book contains seven chapters written by leading experts in the areas and discusses means to revive some of the cultures that are on the verge of closing/shutting down.

This volume contains select papers presented during the Functional Textiles and Clothing Conference 2020 held at Indian Institute of Technology Delhi. The volume covers recent developments, challenges and opportunities in the field of functional and protective clothing; functional printing and finishing; sustainable production and supply chain; and testing and characterisation. This volume will be of interest to researchers, professional engineers, entrepreneurs, and market stakeholders interested in functional textiles and clothing.

This book reviews recent research and applications, developments, research trends, methods and issues related to the applications of industrial hemp for fundamental research and technology.

Recent trends in the fashion market (including an impressive increase in the number of new collections, product assortments and variants, and the emerging mass-customization model) dictate the need for a new approach. "Transforming Clothing Production into a Demand-Driven, Knowledge-Based, High-Tech Industry" discusses the ramifications of such an approach, which must lead to a drastic shortening of the whole cycle from conception to production and retail, as well as a shift from a labor-intensive to a technology- and knowledge-intensive clothing manufacturing industry. "Transforming Clothing Production into a Demand-Driven, Knowledge-Based, High-Tech Industry" is a collection of short papers from prominent researchers involved with the LEAPFROG (Leadership for European Apparel Production From Research along Original Guidelines) initiative. LEAPFROG proposes a revolutionary industrial paradigm based on research results in scientific-technological fields.

This book explains the past, present, and future of textile, fashion, apparel, and related majors of South Asian countries. The chapters express the hidden potential of textiles in South Asia. In this book, experts in textile engineering of each country describe the potential and prospects of textile education and how it can lead to internationalization. The book contains updated new illustrations, images, data, graphs, and tables. It also discusses the textile university alliance and the potential for international education related to textiles in the developing region.

Textiles connect a variety of practices and traditions, ranging from the refined couture garments of Parisian fashion to the high-tech filaments strong enough to hoist a satellite into space. High-performance fabrics are being reconceived as immersive webs, structural networks and information exchanges, and their ability to interface with technology is changing how the human body is experienced and how the urban environment is built. Today, textiles reveal their capacity to transform our world more than any other material. "Textile Futures" highlights recent works from key practitioners and examines the changing role of textiles. Recent developments present new technical possibilities that are beginning to redefine textiles as a uniquely multidisciplinary field of innovation and research. This book is an important tool for any textile practitioner, fashion designer, architect, interior designer or student designer interested in following new developments in the field of textiles, seeking new sustainable sources, or just eager to discover new works that reveal the potency of textiles as an ultramaterial.

This book presents the proceedings of CIRATM-9. The papers present the latest scientific concepts and technological developments in textile and materials of worldwide researchers and practitioners. The conference promotes sharing ideas and emerging technologies and fosters research and development collaborations amongst academia, research institutions and relevant industries. CIRATM is the first international conference applied on textiles in Tunisia and all Maghreb. It is a regular conference organized every two year since 2004. It focuses on all textile and materials fields. It joints together all actors of textile field and share research with many international collaborators. This edition is organized with the collaboration of 4 Tunisian partners and 6 international associates and institutions* Laboratory of Textile Engineering (LGTex, Tunisia), * Monastir university (Tunisia) * Tunisian Association of Textile Researchers (ATCTex, Tunisia) * Le pole de competitivite Monastir-El Fejja (mfcpole, Tunisia) * Association of the universities for textiles (AUTEX, International) * Balkan Society of textile engineering (BASTE) * National research & development institute for textile and leather (INCDTP, Bucharest- Romania) * Yazid University (Iran) * Centre d'Essais Textile (Cetelor, Lorraine - France) * Center of Textile Science and Technology (2C2T - University of Minho, Portugal)

Woven Textiles: Principles, Technologies and Applications, Second Edition, is an essential guide to woven textiles. This new edition is updated and expanded to include major new application areas, as well as the latest developments and innovations in terms of fibers, yarns, fabrics, machinery and technology. Sections cover fibers and yarns used for weaving, key preparatory techniques, the fundamentals of weaving technology, the characteristics of woven structures, the use of computer assisted design (CAD) systems, techniques for modelling the structure of woven fabrics, methods for the manufacture of 3D woven structures, and the application of woven textiles in a range of technologies. With its distinguished editor and international team of expert contributors, this second edition will be an indispensable guide for all designers, engineers and technicians involved in the design, manufacture and use of woven textiles, as well as for academics and researchers in the field of textiles.

This book details two elements of textile chemistry namely- sustainable/eco-friendly dyes and green chemistry. It presents latest topics in sustainable dyeing techniques, low impact dyeing methods, wool dyeing techniques and green chemistry. Certain case studies are also highlighted.

Compatibilization of Polymer Blends: Micro and Nano Scale Phase Morphologies, Interphase Characterization and Properties offers a comprehensive approach to the use of compatibilizers in polymer blends, examining both fundamental and advanced knowledge in the field. The book begins by introducing polymer blends, describing thermodynamics, miscibility, and phase separation, and explaining the main concepts of compatibilization. Other sections cover theoretical approaches for nearly compatible blends, incompatible blends, nanofillers, physical compatibilization, reactive compatibilization, morphological and structural characterization, and physico-mechanical characterization. Finally, key application areas are covered, including biomedical applications, packaging and automobile engineering. While this book will be a highly valuable reference source for academics, researchers and postgraduate students interested in polymer blends, it will also be ideal for anyone involved in the fields of polymer science, polymer chemistry, polymer physics, materials science, scientists, R&D professionals, and engineers in involved in the development or engineering of polymer products.

Cut Protective Textiles is a comprehensive guide to the background theory, industrial testing methods, regulations, applications and material characteristics important to those working with cut protective textiles. This book will help readers understand the pitfalls of assessing cut performance and how to translate that understanding into innovative concepts for their research or product development. Detailed coverage of the properties of cut resistant textiles includes information on fibers, yarns and fabrics, providing a valuable resource for a wide range of researchers and practitioners. The book's comparisons will help clear up confusion caused by different testing methods. Finally, the inclusion of methodologies for the creation of cut protective articles will help readers make full use of this book in a practical setting.

This book provides a comprehensive overview of the field of functional finishing of textiles, describing the state-of-the-art research and well-established techniques applied in the textile industry, and covering all areas of textile dyeing and finishing. It is intended for academic researchers and professionals in related scientific and engineering fields, including textile engineering, chemistry, nanotechnology, material science, biotechnology and environmental science. The book also provides reference material for stakeholders looking for innovative technologies and insights into the environmental and sustainability issues in the development of functional textiles and related products.

Polymers for Vibration Damping Applications is a detailed guide on the use of polymers and polymer composites for vibration and shock damping. The book begins with two chapters that introduce the fundamentals of both vibration and shock damping. The next part of the book presents in-depth coverage of polymeric materials for vibration damping, including viscoelastic properties, design of polymer systems, and modes and applications. Finally, measurement techniques are discussed in detail. Throughout the book, the different perspectives of materials and engineering are considered, and both mathematical and conceptual approaches are used. This is an essential resource for all those looking to understand the application of polymers for vibration damping, including researchers, scientists and advanced students in polymer science, plastics engineering, materials science and mechanical engineering, as well as engineers and R&D personnel in the automotive, marine, defense and construction industries.

This book highlights the models developed to create a sustainable framework suitable for luxury in the textile sector and the innovative attempts in the luxury fashion and fabrics industry. The three chapters in this book discuss these issues by means of case studies and the future of such models.

Water in Textiles and Apparel: Consumption, Footprint, and Life Cycle Assessment provides a thorough analysis of one of the most urgent issues facing the textiles industry. As water is essential to the textile production system, and as availability of water is reduced due to natural and anthropogenic factors, the industry must respond. With a thorough treatment of both life cycle assessment and water footprint perspectives, this book provides practical strategies for responsible water use across the textile supply chain. Readers will learn essential information from research and industry case studies that will help them understand the textile industry's role in this issue.

This book highlights the sustainable aspects of fashion and textiles in Latin America and discusses how the manufacturing and consumption of textile products and fashion are significant sources of environmental damage. It addresses important issues of water and energy consumption in the textile and fashion industry and using case studies presents how social responsibilities in consumer behavior can help in minimizing these environmental issues for a better future.

PEEK biomaterials are currently used in hundreds of thousands of spinal fusion patients around the world every year. Durability, biocompatibility, and excellent resistance to aggressive sterilization procedures make PEEK a polymer of choice, replacing metal in orthopedic implants, from spinal implants and knee replacements to finger joints and dental implants. The new edition of this authoritative work sees the book expand from 17 chapters to 26 chapters to match the expansion in applications in PEEK-from spinal cages to spinal rods and disc replacements; hip and knee joint replacement; dental; trauma; and sports medicine. New PEEK formulations have been developed incorporating hydroxyapatite, additives to combat infection, and surface grafted polymers to improve lubrication. The book also covers additive manufacturing, which has made significant inroads with PEEK in the past 5 years as well by introducing the prospect of patient-specific implants. Like the 1st edition, the updated Handbook brings together experts in many different facets related to PEEK clinical performance as well as in the areas of materials science, tribology, and biology to provide a complete reference for specialists in the field of plastics, biomaterials, medical device design, and surgical applications. Useful for materials scientists and biomedical engineers, both in industry and academia, the book is a one-stop shop for information on PEEK as a biomaterial-including in-depth coverage of materials properties-while also providing cutting-edge information on applications and combinations of the material.

This book provides an overview of current issues and challenges in the fashion industry and an update on data-driven artificial intelligence (AI) techniques and their potential implementation in response to those challenges. Each chapter starts off with an example of a data-driven AI technique on a particular sector of the fashion industry (design, manufacturing, supply or retailing), before moving on to illustrate its implementation in a real-world application

This book explores new approaches and strategies that luxury fashion brands could adopt in their operations toward sustainability goals. It addresses the unique challenges faced by luxury fashion brands, given that concepts of luxury and sustainability may be conflicting. In doing so, it elaborates on how fashion brands need to manage their suppliers to comply with and improve social and environmental conditions, the pressure to fulfill the triple-bottom lines, consumer demands for transparency, and social media and its advantages in achieving sustainability goals. Exploring the notion that luxury fashion brands are in a better position to pursue superior sustainability performance, it presents research that highlights how the consequences of non-compliance could have more devastating effects on luxury brands than on mass-market brands. The book is a valuable resource for academics and practitioners in the field of business, sustainability, and fashion.

Nanofinishing of Textile Materials provides thorough coverage of existing, current and future developments in the field. Sections cover a wide range of nanofinishing mechanisms for improving the fundamental properties of textiles, such as bleaching, scouring, softening and surface activation. Other sections discuss high-performance properties and conventional attributes, such as waterproofing, fire-retardancy and novel applications, including conductivity and magnetism. With two highly regarded and experienced authors bringing together the latest information on nanofinishing technology, this book is essential reading for scientific researchers, engineers and R&D professionals working on the development of finishes for improving the properties of textiles.

This book highlights the concept and applications of Remanufactured Fashion. The first book on this subject, it covers reverse logistics, exemplars, and case studies of remanufactured fashion design. Textile waste is a major issue for all countries, and converting that waste into useful products offers a sensible solution. Remanufactured Fashion is one such sustainable waste management strategy. It involves the conversion of discarded garments into useful retail products, without which they would be dumped at landfills, posing a number of environmental issues. Remanufacturing recovers a product's inherent value once that product no longer fulfills the user's desired needs. The application and use of discarded clothing in remanufacturing processes could greatly reduce the percentage of clothing waste (and mitigate related waste management issues), while also contributing to resource conservation. There has been scant research investigating what is actually involved in the fashion remanufacturing process and how the process could be up-scaled to the mass market in order to achieve greater environmental gains. This book addresses that gap in the literature and examines all aspects pertaining to the concept and applications of Remanufactured Fashion.

Cotton fiber is the most important natural fiber used in the textile industry. The physical structure and chemical compositions of cotton fibers have been extensively studied. Newer high speed spinning instruments are being deployed around the world that demand longer, stronger and finer fibers. Consequently, genetic improvement in fiber quality has been stressed. With improvement in fiber quality has come the realization that further fiber improvement will require a better understanding of fiber development and biology. As a consequence, cotton fiber developmental biology, genetics and genomics have become focal points in the cotton research community. As the longest single-celled plant hair, cotton fiber has been used as an experiment model to study trichome initiation and elongation in plants. This book provides a comprehensive update on cotton fiber physics, chemistry and biology that form the three sections of the book. In the physics section, the physical structure of cotton fiber is first illustrated in great detail. Then a suite of fiber properties and their measuring methods are described. The pros and cons of each method are outlined. New methods to measure physical properties of single fiber and young developing fibers are included. In the chemistry section, the chemical compositions of cotton fibers are described in detail. This knowledge is necessary for efficient modification of cotton fibers for better and broader utilization. The advancement in cotton fiber modification using chemical and enzymatic methods opened new ways to utilize cotton fibers. In the biology section, the book first introduces the utilization of naturally occurring color cottons. Color cottons possess unique attributes such as better fire retardant ability. Advancement in understanding fiber color genetics and biochemical pathways and new utilization of color cottons are discussed. Recent technological advancements in molecular biology and genomics have enabled us to study fiber development in great depth. Many genes and quantitative trait loci related to fiber quality attributes have been identified and genetically mapped. Some of these genes and QTLs are being used in breeding. Progresses in cotton fiber improvement using breeding and biotechnology are discussed in the last chapter. This book serves as a reference for researchers, students, processors, and regulators who either conduct research in cotton fiber improvement or utilize cotton fibers.