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Books > Professional & Technical > Industrial chemistry & manufacturing technologies > Textile & fibre technology
In today's highly competitive and global textile market, product quality has become of paramount importance in order to produce high-quality cotton yarns which will in turn produce high quality woven and knitted fabrics and end products, emphasis must be placed on the quality and processing of cotton fibers. This comprehensive guide is a vital tool for anyone interested in increasing the yield and quality of cotton, the world's most popular fiber.
When a new technology makes people ill, how high does the body count have to be before protectives steps are taken? This disturbing book tells a dark story of hazardous manufacturing, poisonous materials, environmental abuses, political machinations, and economics trumping safety concerns. It explores the century-long history of "fake silk," or cellulose viscose, used to produce such products as rayon textiles and tires, cellophane, and everyday kitchen sponges. Paul Blanc uncovers the grim history of a product that crippled and even served a death sentence to many industry workers while also releasing toxic carbon disulfide into the environment. Viscose, an innovative and lucrative product first introduced in the early twentieth century, quickly became a multinational corporate enterprise. Blanc investigates industry practices from the beginning through two highly profitable world wars, the midcentury export of hazardous manufacturing to developing countries, and the current "greenwashing" of viscose as an eco-friendly product. Deeply researched and boldly presented, this book brings to light an industrial hazard whose egregious history ranks with those of asbestos, lead, and mercury.
This new volume reviews recent academic and technological developments behind new engineered modified nanotextile materials. The developments in textiles using nanotechnology give ordinary materials improved properties, such as better water resistance, enhanced moisture and odor reduction, increased strength and elasticity, and resistance to bacteria, among other improvements. The research reported in this book presents state-of-the-art technology in modern materials with an emphasis on the rapidly growing technologies in textile engineering. Several innovative applications for different materials are described in considerable detail with emphasis on the experimental data that supports these new applications. From nano-fibers to chemical materials, creative modifications concerning new nanocomposites are described that could one day become commonplace. The book covers a host of topics in this area, including the design of new textile products, moisture and heat transfer in clothing, developments in electrospinning, new applications, nanotextile and tissue engineering from a biological perspective, and more. The book is intended for researchers and those interested in future developments in mechanical and physicochemical characteristics of modified nanotextile materials and polymer blends. The book will also be a useful tool for students and researchers, providing helpful insights into new evolving research areas in nanostructured polymer blends and composites in textiles.
Textile Technology is a unique and readable introduction into the field of textile engineering. It is based on an elementary level course focusing on the manufacture (processes and machines) of yarn, fabric, knitwear, nonwovens, braids, reinforcing fabrics, and technical textiles, but also provides technicians and engineers in the textile industry with an up-to-date review of processes and equipment for textile manufacturing. The book covers all processing steps for the manufacturing of textiles, describing materials, processes and machines, finishing, making-up, and recycling. To provide a better understanding of the individual textile processes, each chapter ends with an example describing the respective processing steps for a specific textile product. In addition, current and future development trends are discussed. The second edition is brought up to date with extensive coverage of new developments, such as in the fields of testing, measurement, and simulation.
A comprehensive exposition of micro and nanofiber forming, this text provides a unified framework of all these processes (melt and solution blowing, electrospinning, and so on) and describes their foundations, development and applications. It provides an up-to-date, in-depth physical and mathematical treatment, and discusses a wide variety of applications in different fields, including nonwovens, energy, healthcare and the military. It further highlights the challenges and outstanding issues from an interdisciplinary perspective of science and technology, incorporating both fundamentals and applications. Ideal for researchers, engineers and graduate students interested in the formation of micro and nanofibers and their use in functional smart materials.
The dyeing properties of polyester fibers are strongly influenced by many of the processing conditions during the manufacturing or subsequent handling of the fibers. Complementing the rich pool of knowledge in the field, this work addresses problems in the dyeing of polyester textile materials in various forms. It first gives an overview of the variety of textile operations for polyester and then describes the key steps and critical factors involved in the production of dyed polyester textile materials. The authors also summarize problems originating at each stage.
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.
Textile Technology and Design addresses the critical role of the interior at the intersection of design and technology, with a range of interdisciplinary arguments by a wide range of contributors: from design practitioners to researchers and scholars to aerospace engineers. Chapters examine the way in which textiles and technology - while seemingly distinct - continually inform each other through their persistent overlapping of interests, and eventually coalesce in the practice of interior design. Covering all kinds of interiors from domestic (prefabricated kitchens and 3D wallpaper) to extreme (underwater habitats and space stations), it features a variety of critical aspects including pattern and ornament, domestic technologies, craft and the imperfect, gender issues, sound and smart textiles. This book is essential reading for students of textile technology, textile design and interior design.
The Conservation of Tapestries and Embroideries represents the work of many conservators, conservation scientists, and curators from museums and tapestry and embroidery conservation workshops in western Europe and the United States. They were gathered together for meetings in Brussels in 1987 to present their current research, to scrutinize new findings, and to discuss specific problems, innovations, methods, and materials for the conservation of textiles.
The edited papers which comprise this book were presented at the international conference, Ecotextile '98, which was organized jointly by Bolton Institute and the British Textile Technology Group.
Toxic fire effluents are responsible for the majority of fire
deaths, and an increasing large majority of fire injuries, driven
by the widespread and increasing use of synthetic polymers. Fire
safety has focused on preventing ignition and reducing flame spread
through reducing the rate of heat release, while neglecting the
important issue of fire toxicity. This is the first reference work
on fire toxicity and the only scientific publication on the subject
in the last 15 years.
Textiles are ubiquitous materials that many of us take for granted in our everyday lives. We rely on our clothes to protect us from the environment, for modesty, to enhance our appearance and reflect our personality. Beyond these traditional applications, high-performance fibres have been specifically developed for more demanding roles in protective garments, industrial work-wear, car tyres, parachutes and artificial arteries. This is the only book to describe the chemistry of textile fibres at a level appropriate for 'A' level students and first-year undergraduates following courses in textile science and technology. Readers with a background in chemistry and an interest in the principles of functional fibre development will also find it to be of value. The book explains the characteristics required for polymers to be fibre-forming, the general physical properties needed from textile fibres, and the chemistry of important natural and synthetic fibres. The book also deals with the essential chemistry of "high-performance" fibres that possess functionalities beyond those of materials traditionally used for apparel. Later chapters describe methods of fibre enhancement and fibre blending.
Colouration of textiles is an art and less complicated than actually thought; just needs due attention to ascertain look, quality and consistency in product. Each textile is coloured with specific colourants through its own technology. Thorough realization of basics of colouration is the basic need to achieve that. Fundamentals and Practices in Colouration of Textiles explains basics of colouration with a match in practical application precisely but in detail. It covers academic as well as industrial aspects of colouration, defines problems and solutions to develop quality product with greater ease. Dye and chemical manufacturer's recommendations have been introduced to make the book practically healthy.
This book should be of interest to students in fashion and design; practising designers.
The author explains the benefits that can be gained from computer-aided design and manufacture (CAD/CAM) by companies engaged in activities ranging through the whole spectrum of design and manufacture in clothing and textiles. The book guides companies through the challenges of assessing requirements and estimating the short- and long-term costs of investment and provides a time- and cost-saving do-it-yourself checklist to key steps in the process. Emphasizing the importance of an integrated approach to CAD/CAM within a broader IT strategy, the author demonstrates how the whole chain of supply from design to sales outlet can be made more efficient and better targeted through more effectively networked information management, and positions of CAD/CAM in the context of other IT systems. The book also includes a listing of suppliers and systems, advice on human resource and training issues, tips on maintenance and a look at future developments.
Volumes 3a, b and 4 focus on polyesters synthesized by bacteria and eukaryotic organisms as well as all aspects of the biosynthesis and metabolism of these biopolymers together with their production and isolation. In addition, these volumes treat various synthetic polyesters and related polymers synthesized by the chemical industry for the manufacture of biodegradable materials. Topics include: polyhydroxyalkanoates, pha granules, non-storage phas, poly(malic acid), cutin, suberin, polyphosphate, polylactides, polyglycolide, polyanhydrides, polyesteramides, aliphatic organic polyesters and related polymers, in vitro synthesis of polyesters, chemical synthesis, biotechnological production by fermentation, isolation from plants, production in transgenic plants, and biodegradation. |
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