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The integration of electronics into textiles and clothing has opened up an array of functions beyond those of conventional textiles. These novel materials are beginning to find applications in commercial products, in fields such as communication, healthcare, protection and wearable technology. Electronic Textiles: Smart Fabrics and Wearable Technology opens with an initiation to the area from the editor, Tilak Dias. Part One introduces conductive fibres, carbon nano-tubes and polymer yarns. Part Two discusses techniques for integrating textiles and electronics, including the design of textile-based sensors and actuators, and energy harvesting methods. Finally, Part Three covers a range of electronic textile applications, from wearable electronics to technical textiles featuring expert chapters on embroidered antennas for communication systems and wearable sensors for athletes. - Comprehensive overview of conductive fibres, yarns and fabrics for electronic textiles - Expert analysis of textile-based sensors design, integration of micro-electronics with yarns and photovoltaic energy harvesting for intelligent textiles - Detailed coverage of applications in electronic textiles, including werable sensors for athletes, embroidered antennas for communication and electronic textiles for military personnel
Smart Textiles and Their Applications outlines the fundamental principles of applied smart textiles, also reporting on recent trends and research developments. Scientific issues and proposed solutions are presented in a rigorous and constructive way that fully presents the various results, prototypes, and case-studies obtained from academic and industrial laboratories worldwide. After an introduction to smart textiles and their applications from the editor, Part One reviews smart textiles for medical purposes, including their use in health monitoring, treatment delivery, and assistive technologies. Part Two covers smart textiles for transportation and energy, with chapters covering smart textiles for the monitoring of structures and processes, as well as smart textiles for energy generation. The final section considers smart textiles for protection, security, and communication, and includes chapters covering electrochromic textile displays, textile antennas, and smart materials for personal protective equipment. - Scientific issues and proposed solutions are presented in a rigorous and constructive way regarding various results, prototypes, and case-studies obtained from academic and industrial laboratories worldwide - Useful for researchers and postgraduate students, and also for existing companies and start-ups that are developing products involving smart textiles - Authored and edited by an international team who are experts in the field ensure comprehensive coverage and global relevance
Computers and electronic technology have gotten so small and portable that they can be woven into the fabric we wear. Readers will discover new processes, integrate visual information with text, and learn technical word meanings as they find out how makers are creating interesting new inventions from e-textiles. They will also discover how to make their own e-textile devices with a variety of fun activities.
From a holistic perspective, this handbook explores the design, development and production of smart textiles and textile electronics, breaking with the traditional silo-structure of smart textile research and development. Leading experts from different domains including textile production, electrical engineering, interaction design and human-computer interaction (HCI) address production processes in their entirety by exploring important concepts and topics like textile manufacturing, sensor and actuator development for textiles, the integration of electronics into textiles and the interaction with textiles. In addition, different application scenarios, where smart textiles play a key role, are presented too. Smart Textiles would be an ideal resource for researchers, designers and academics who are interested in understanding the overall process in creating viable smart textiles.
What Is E-Textiles Electronic textiles, also known as e-textiles, are types of fabrics that make it possible to incorporate electronic components such as batteries, lights, sensors, and microcontrollers into them. They are not to be mistaken with smart textiles, which are fabrics that have been designed with innovative technologies that bring additional value. These are not to be confused with smart textiles. E-textiles are used in a wide variety of different applications, including those involving smart clothing, wearable technology, and wearable computing. How You Will Benefit (I) Insights, and validations about the following topics: Chapter 1: E-textiles Chapter 2: Clothing Chapter 3: Textile Chapter 4: Linen Chapter 5: Gore-Tex Chapter 6: Maya textiles Chapter 7: Technical textile Chapter 8: Printed electronics Chapter 9: Stretchable electronics Chapter 10: Conductive textile Chapter 11: Wearable technology Chapter 12: Electronic skin Chapter 13: Co-fired ceramic Chapter 14: Google ATAP Chapter 15: Asha Peta Thompson Chapter 16: Tricia Carmichael Chapter 17: Ana Claudia Arias Chapter 18: Clothtech Chapter 19: Textile performance Chapter 20: Chi Hwan Lee Chapter 21: Medical textiles (II) Answering the public top questions about e-textiles. (III) Real world examples for the usage of e-textiles in many fields. (IV) 17 appendices to explain, briefly, 266 emerging technologies in each industry to have 360-degree full understanding of e-textiles' technologies. Who This Book Is For Professionals, undergraduate and graduate students, enthusiasts, hobbyists, and those who want to go beyond basic knowledge or information for any kind of e-textiles.
This book introduces a collection of tools that enable novices - including educators, hobbyists, and youth designers - to create and learn with e-textiles. It then examines how these tools are reshaping technology education - and DIY practices - across the K-16 spectrum.
From light-up scarves to solar-powered backpacks to health monitoring fabric, innovative combinations of electronics and textiles are becoming more prevalent and impressive all the time, making appearances everywhere from the runway to medical settings. In the near future, these wearable technologies will be a standard part of daily life. E-textiles, including soft circuits, conductive fabrics, and sewable electronics, may not be familiar to all library patrons now, but the way that e-textile projects combine STEM topics with fun, familiar crafts make them popular for library programs, interesting to diverse groups, and a great tool for teaching new skills and techniques. Best of all, e-textile projects can be designed to fit into budgets of all sizes and to appeal to patrons of any age and level of technical proficiency. In this book, you’ll learn everything you need to know about the tools, supplies, techniques, and science behind e-textiles and find out how your library can design successful collections and programs around this hot new topic. The book features key information about the materials and techniques you’ll need to know, examples of libraries that have found success with e-textiles, step-by-step advice on program creation, and projects that can be used for fun and engaging library programs. By the time you finish reading, you will have everything you need to develop a program that will generate excitement within your community and introduce your patrons to new and useful skills. Keep your library on the cutting edge of technology with exciting and engaging e-textiles programming!
Smart-textiles developers draw on diverse fields of knowledge to produce unique materials with enhanced properties and vast potential. Several disciplines outside the traditional textile area are involved in the construction of these smart textiles, and each individual field has its own language, specific terms and approaches. Multidisciplinary know-how for smart-textiles developers provides a filtered knowledge of these areas of expertise, explaining key expressions and demonstrating their relevance to the smart-textiles field.Following an introduction to the new enabling technologies, commercialisation and market trends that make up the future of smart-textiles development, part one reviews materials employed in the production of smart textiles. Types and processing of electro-conductive and semiconducting materials, optical fibres for smart photonic textiles, conductive nanofibres and nanocoatings, polymer-based resistive sensors, and soft capacitance fibres for touch-sensitive smart textiles are all discussed. Part two then investigates such technologies as the embedding of electronic functions, the integration of thin-film electronics, and the development of organic and large-area electronic (OLAE) technologies for smart textiles. Joining technologies are also discussed, alongside kinetic, thermoelectric and solar energy harvesting technologies, and signal processing technologies for activity-aware smart textiles. Finally, product development and applications are the focus of part three, which investigates strategies for technology management, innovation and improved sustainability, before the book concludes by exploring medical, automotive and architectural applications of smart textiles.With its distinguished editor and international team of expert contributors, Multidisciplinary know-how for smart-textiles developers is a key tool for readers working in industries including design, fashion, textiles, through to electronics, computing and material science. It also provides a useful guide to the subject for academics working across a wide range of fields. - Reviews materials used in the production of smart textiles - Examines the technologies used in smart textiles, such as optical fibres and polymer based resistive sensors - Investigates strategies for technology management, innovation and improved development
Engineering of High-Performance Textiles discusses the fiber-to-fabric engineering of various textile products. Each chapter focuses on practical guidelines and approaches for common issues in textile research and development. The book discusses high-performance fibers and yarns before presenting the engineering fabrics and architectures needed for particular properties required of high-performance textiles. Properties covered include moisture absorption, pilling resistant knitwear, fire retardant fabrics, camouflage fabrics, insect repellent fabrics, filtration, and many more. Coordinated by two highly distinguished editors, this book is a practical resource for all those engaged in textile research, development and production, for both traditional and new-generation textile products, and for academics involved in research into textile science and technology. - Offers a range of perspectives on high-performance textiles from an international team of authors with diverse expertise in academic research, textile development and manufacture - Provides systematic and comprehensive coverage of the topic from fabric construction, through product development, to the range of current and potential applications that exploit high-performance textile technology - Led by two high-profile editors with many years' experience in engineering high-performance textiles
The “Handbook of Smart Textiles” aims to provide a comprehensive overview in the field of smart textile describing the state of the art in the research sector as well as the well-established techniques applied in industries. The handbook is planned to cover from fundamental theories, experimental techniques, characterization methods, as well as real applications with successful commercialized examples. The book is structured in a way in which it is appropriate for graduate students, PhD candidates, and professionals in diverse scientific and engineering communities devoted to relevant fields, including textile engineering, chemistry, bioengineering, material engineering, mechanical engineering, electrical engineering. The book will also provide a solid reference for industrial players who look for innovative technologies as well as environmental, safety concerns for the development of smart textile related products.