The subject of nanotechnology in textiles is as vast as the universe so to restrict its description to a few words is merely impossible. Nanotechnology is, broadly speaking, the science of manipulating and rearranging individual atoms and molecules to create useful materials. "Nano" textiles are those designed and engineered on the nanoscale to create specific functions. These nano functions are very diverse and range from UV protection and antibacterial functions to moisture management. This book summarises the recent development of nanotechnology in textile areas.

The tumultuous events during and after two world wars changed society forever.The new status of women no longer prepared to be tied to the home, a major re-adjustment of the class system, the pill and new sexual mores. Clothes and fashion played an important role in perceptions of social advancement, and man-made textiles supplied modern fabrics inexpensive enough to open up mass markets. They provided the easy-care demanded by the new consumer society. Written in an easy-to-read style this book covers the history, invention and textile technology of the main fibres including rayon, nylon, polyester and acrylics. Fashion, textile, sex , and high street retailer stories are closely entwined within that history. Anecdotes and illustrations add period character.

Phytoremediation, which involves the use of plants and rhizospheric organisms for the removal of pollutants, is an emerging technology for the clean up of contaminated sites. The removal of textile dyes mediated by plants has been one of the most neglected areas of phytoremediation research. Dyes, which are primary constituents of the wastes from textile industry effluents, constitute a group of recalcitrant compounds, many of which are known to have toxic and carcinogenic effects. This book focuses on the studies of the mechanisms adopted by plants in the removal of textile dyes and the future scope for research in this area, which will help in broadening the horizons of phytoremediation technologies.

In this book, the results of the chemical modification of cellulose fibres were presented, aimed at protecting the textile material against biodegradation. Namely, cellulose fibres are highly susceptible to microbial attack, resulting in worsened technological and applicable properties of textile products. This is a particularly crucial problem for textiles that are in use. The rate and degree of cellulose biodegradation is affected by several factors, among which the most important are the genera of micro-organisms and the environmental conditions needed for microbial growth.

Textiles are central to our lives and are at the heart of the world's largest industries. In recent years there has been a dynamic shift in attitudes toward textiles, fuelled in part by explosive developments in technology. While textiles have always retained roots in craft and industry, the discipline now embraces a much wider range of practices. Innovations in the industry demand a fresh approach to the subject, which this comprehensive introduction ably supplies. Taking as their starting point the very meaning of textiles, Gale and Kaur go on to show the astonishing range of opportunities for careers in the field, from the creative (artists, craftspeople and designers) to the social and industrial, to the commercial and associated practices (buyers, journalists, researchers and scientists). The Textile Book takes us behind the scenes with professionals to reveal what various jobs involve, what influences decision makers, and how their decisions affect what we buy next season. What happens to clothes before they reach the shops? What determines the 'must have' item? How can recycled bottles be transformed into silk-like yarns? These and many other questions are explored to show the diversity that makes up the contemporary global textile scene. Woven, printed, embroidered, knitted -- textiles are pivotal to the everyday experience of people in all parts of the world. This wide-ranging and informative book conveys the excitement and new challenges textiles represent and is essential reading for anyone working with, studying or simply interested in textiles.

This book is part of a five-volume set that explores sustainability in textile industry practices globally. Case studies are provided that cover the theoretical and practical implications of sustainable textile issues, including environmental footprints of textile manufacturing, consumer behavior, eco-design in clothing and apparels, supply chain sustainability, the chemistry of textile manufacturing, waste management and textile economics. The set will be of interest to researchers, engineers, industrialists, R&D managers and students working in textile chemistry, economics, materials science, and sustainable consumption and production. This volume discusses novel trends and concepts in sustainable textile design, including innovative topics such as doodling and upcycling in clothing and apparel design for sustainable fashion initiatives. Along with strategies for repurposing fashion sustainability, the book also covers university interventions for the development of proper and environmentally friendly design practices. Specific technologies addressed include UV applications, laser treatments for dyeing, refined surface design techniques for products such as leather.

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 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.

This book should be of interest to students in fashion and design; practising designers.

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.
Assessment of toxic effects of fires is increasingly being recognised as a key factor in the assessment of fire hazards. This book raises important issues including the types of toxic effluents that different fires produce, their physiological effects, methods for generation and assessment of fire toxicity, current and proposed regulations and approaches to modelling the toxic impact of fires.
The contributors to Fire toxicity represent an international team of the leading experts in each aspect of this challenging and important field. This book provides an important reference work for professionals in the fire community, including fire fighters, fire investigators, regulators, fire safety engineers, and formulators of fire-safe materials. It will also prove invaluable to researchers in academia and industry.
Investigates the controversial subject of toxic effluents as the cause of the majority of fire deaths and injuriesDescribes the different types of toxic effluents and the specific fires that they produce, their physiological effects and methods for generationProvides an overview of national and international fire safety regulations including current and proposed regulations such as a standardized framework for prediction of fire gas toxicity