From nomads' tents to poodle skirts, from car parts to Christmas tree ornaments, felt is one of the world's oldest and most understated textiles. Felt has developed simultaneously in multiple cultures, and often its origins are lost. However, far from having been supplanted by new fabrics, not only has felt retained its traditional uses among peoples around the world, but it has also seen a revival of popularity among today's hand feltmakers, craftspeople and fashion designers. This book follows the journey of felt through time, space, and purpose by pulling into focus a series of snapshots of different felting traditions. Beautifully illustrated, "Felt" covers the wide-ranging history and development of this most unassuming, yet ubiquitous, of fabrics from the earliest archaeological evidence in the mountains of Siberia to the groundbreaking works of contemporary fiber arts and sculptors.

This is a concise yet detailed guide to the fundamental terms, materials, and techniques used to create textiles. Textiles have been made and used by every culture throughout history. However diverse - whether an Egyptian mummy wrapping, a Turkish carpet, Italian velvet, American quilt, or a Scottish kilt - all textiles have basic elements in common. They are made of fibres, constructed into forms, and patterned and coloured in ways that follow certain principles. "Looking at Textiles" serves as a guide to the fundamentals of the materials and techniques used to create textiles. The selected technical terms explain what textiles are, how they are made, and what they are made of, and include definitions of terms relating to fibres, dyes, looms and weaving, and patterning processes. The many illustrations, including macro- and micro-scale photographs of a range of ancient and historic museum textiles, demonstrate the features described in the text.

The Genesis of the Textile Industry from Adorned Nudity to Ritual Regalia documents and evaluates the changing role of fibre crafts and their evolving techniques of manufacture and also their ever-increasing wider application in the lives of the inhabitants of the earliest villages of the Ancient Near East. It is a broad-spectrum enquiry into fibre working in a broad swathe from Mesopotamia across Persia and Anatolia to the Nile Valley. It focuses, however, on the southern Levant from incipient sedentism in the Natufian culture, c. 13,000 cal BCE to the Ghassulian culture, c. 4500-3800/3700 cal BCE. This is the first comprehensive study addressing the fibre technologies of the southern Levant on a long chronological axis. Currently, fibre crafts play only a minor role in archaeological thinking. This research demonstrates the magnitude and also the indispensable role that fibre crafts have played in the quotidian events, activities and practices of the inhabitants of the region. It has created an awareness of the substantial, often invisible, presence of fibre-craft products which was hitherto lacking in archaeological thought.

This thesaurus provides an indispensable tool in the area of textile information storage and retrieval. At present there is no comparable reference work in the field. It contains terms relating to all segments of the textile industrial complex from fiber producer to machinery maker to consumer goods testing laboratories, and is intended to provide a controlled vocabulary for all textile terms from the chemical stage to the marketing end.It will provide a quick and valuable reference guide to users of textile research and engineering literature and provide a source of specialized and accurate terminology for authors, editors, indexers, information specialists, and librarians, as well as inventors and patent lawyers.The focal point of this compilation of the language and literature of textiles was the textile mill and/or finishing plant, i.e., the "core" of the industry. The details of terminology were determined from the viewpoint of this manufacturing nucleus.The thesaurus contains 8000 key words and 72;000 relationships. Its coverage will serve the needs from fiber producer, textile manufacturer and finisher, distributor of clothing, producer of textile auxiliaries and dyes, the maker of textile machinery, and materials-testing governmental laboratories, to retailing organizations and consumer groups.The work is in computer printout form and was developed and prepared as part of the textile information program conducted in the Fibers and Polymers Division, M.I.T., under sponsorship of the U. S. Department of Commerce. It has already been translated into French and the Nordic languages and will fill the growing need for a guide to the international literature of textile materials and processes.

A report on fabric and garment flammability research; a reference for fiber and textile technologists. This report on fabric and garment flammability represents a synthesis and overview of research conducted by four independent labs, sponsored jointly by the Government Industry Research Committee on Flammable Fabrics and by the Office of Flammable Fabrics of the National Bureau of Standards. It is intended as a reference document for fiber and textile technologists concerned with this problem. The laboratories taking part in this cooperative program were the Factory Mutual Research Corporation; teh School of Mechanical Engineering, Georgia Institute of Technology; the Harris Research Laboratories Department, Gillette Research Institute; and the Fuels Research Laboratory, Department of Chemical Engineering, MIT. The overview group, which compiled and integrated the results and produced this book, was affiliated with the Department of Mechanical Engineering, MIT. Three specific aspects of the flammability problem are treated here: fabric ignition, the spreading of flames, and burn injury to the human skin. In addition, an entire chapter is devoted to the characterization of fabric properties related to flammability. The ignition phenomenon involves the complex processes of heat transfer, thermal degradation, fluid mechanics and chemical kinetics. Thermoplastic behavior compounds this complexity when synthetic fabrics are involved. The treatment of ignition outlined in this work, is essentially physical, omitting considerations of chemical kinetics and focusing on the prediction of ignition time of fabrics under known conditions of thermal exposure. Flame propagation is discussed as a continuing ignition process. Only those aspects of the flame propagation phenomenon, both in fabric strips and in garments, that are accessible through an experimental approach are dealt with. Research on thermal burns of the human body also involves considerations of heat transfer to and thermal decomposition of the skin. In this phase of the study, attempts are made to predict depth and burn damage on the basis of thermal history at the skin surface. Extensive experimental results are reported, which provide insight into the mode and extent of heat transfer from burning fabrics and garments to skin simulants.

Important Note about PRINT ON DEMAND Editions: You are purchasing a print on demand edition of this book. This book is printed individually on uncoated (non-glossy) paper with the best quality printers available. The printing quality of this copy will vary from the original offset printing edition and may look more saturated. The information presented in this version is the same as the latest edition. Any pattern pullouts have been separated and presented as single pages. If the pullout patterns are missing, please contact c&t publishing.

Textiles: A Handbook for Designers is a thorough study of the textile industry and the design processes and techniques used by professionals. With an overview of the textile industry and a thorough explanation of the designer's role, the text encourages adaptation of any design expertise into the processes, techniques, and formats characteristic of the textile industry. Textiles is a compilation of information obtained from many different designers. Because each designer may work for years within only one segment of the market, this comprehensive view of studio practices throughout the industry should be meaningful even to practicing professionals. An indispensable reference work for artists who aspire to work with textile design as well as for professionals in the textile industry and related fields of interior and apparel design, the revised edition of Textiles covers the most recent developments as well as traditional practices.

This monograph is intended to present an overview- most of which is based on ideas and conclusions presented in published literature, the rest representing our own concepts developed through extensive research. Here, the reader will discover the rational relationships between basic mechanisms, and experimental data, and theoretical expressions which were developed over several years by scientists for coir fibre characterisation and utilisation in particular. It will help to those who deal with coir fibre in both industry and academia specially to teachers, students and technologists. It contains the perspective of coir, its textile related structure and properties with a comparison between few other allied lingo-cellulosic fibres. Coir fibre are coarser for textile applications and possesses highly variable properties. So segregation of fibres from the bulk considering properties may give suitable fibre for spinning, composite making and other applications. The optimum value addition of coir can be realized, when a fully systematic supply chain of quality fibre with proper gradation system can be developed. The fibre shows high flexural rigidity and lower inter-fibre frictional resistance for which it is difficult to spin finer yarn and indicates its suitability for coarse textile applications. Coir fibre is circular and multi-fibrillar. Moisture regain is moderate. Thermal and component analyses reveal the presence of similar amount of lignin and celluloses in the fibre. SEM image reveals that surface of the fibre is waxy, irregular, and having micro-imperfections. Microbial resistance makes the coir suitable for using it in different engineering and geotechnical applications in conjunction with soil and water. The property-based advantages of coir are resistant to fungi and rot, excellent insulation against temperature, not easily combustible, flame-retardant, resistant to moisture and dampness, tough and durable, highly resilient, totally static free, easy to clean etc. It is not suitable for technical uses due to low strength, high extensibility and very low modulus. Sometimes high bulk and low coefficient of friction act as the disadvantages. The age old manual spinning technology should be replaced by mechanised system. The fibres can be highly suitable to form compressed mat for various products of geotextile, agro-textiles, and sound and heat insulators with improved softness and fineness property. Being an ecofriendly, natural product from renewable sources, coir products serve mankind in several ways as a substitute for many synthetic products which are extensively used but are harmful to nature. Coir wood substitute will help to protect valuable forests.

Written by a group of international experts, this book provides a comprehensive analysis of the main scientific and technological advances that ensure the continued functionality of cellulosic textile supports. It begins with a discussion on the chemical and physical structure of cotton and its different properties and provides a review of the main vancees regarding textile surface modification. The second chapter is devoted to the use of cotton supports in comfort, and more specifically the importance of the textile structure for the management of heat and mass transfers. These different concepts are discussed from the description of recent models applied in this field of expertise. The third chapter is dedicated to the fire retardant properties of textile substrates, with a more specific focus on textile finishing treatments to improve this type of surface functionality. Finally, the last chapter is oriented towards the chemical grafting of microcapsules from the DOPA, which currently constitutes a possible new application path in the textile field. This book covers a wide range of textile finishing treatments for cotton, allowing the reader to learn about new technologies in this field.

Fiber is a class of materials that are continuous filaments or are in discrete elongated pieces, similar to lengths of thread. Fibers are very important in the biology of both plants and animals for holding tissues together. Plants yielding fibers have been only second to food plants in their usefulness to humans and their influence on the furthering of civilization. Textiles stand next to agriculture as an income generation activity for most of the rural population. The structure of the fabric is as much a determining factor in its functions, as it is the choice of raw material. Some structures of the fabric lend themselves to any specific end use where as many other structures are versatile lending them to a variety of functions and end users. Good understandings of simple woven structures make it possible to apply them in the woven cloth in a variety of ways. This book discussed recent studies in different branches of textile research.

The eighth edition of this industry standard for textile terminology is fully revised and expanded featuring approximately 100 new entries and over 14,000 definitions of fibers, fabrics, laws and regulations affecting textile materials and processing, inventors of textile technology, and business and trade terms relevant to textiles. Trademark information has been thoroughly updated to reflect the U.S. Patent and Trademark Office's Trademark Electronic Search System (TESS), and current definitions from the industry associations American Association of Textile Chemists and Colorists and American Society for Testing and Materials are included. Fully illustrated with over 400 photographs and line drawings, entries include pronunciation, derivation, definition, and uses. An extensive appendix provides a list of national and internationalindustry associations and organizations. From Abaca to Zyex, The Fairchild Books Dictionary of Textiles contains essential reference information for professionals and scholars involved in the textile industry.

The diverse developments in textile research of the last decade, along with the increased recognition of the importance of textile studies in adjacent fields, now merit a dedicated, full-length publication entitled "Ancient Textile Production from an Interdisciplinary Perspective: Humanities and Natural Sciences Interwoven for our Understanding of Textiles". With this volume, the authors and the editors wish to illustrate to the current impact of textile archaeology on the scholarly perception of the past (not limited to archaeology alone). The volume presents new insights into the consumption, meaning, use and re-use of textiles and dyes, all of which are topics of growing importance in textile research. As indicated by the title, we demonstrate the continued importance of interdisciplinarity by showcasing several 'interwoven' approaches to environmental and archaeological remains, textual and iconographic sources, archaeological experiments and ethnographic data, from a large area covering Europe and the Mediterranean, Near East, Africa and Asia. The chronological span is deliberately wide, including materials dating from c. 6th millennium BCE to c. mid-14th century CE. The volume is organised in four parts that aim to reflect the main areas of the textile research in 2020. After the two introductory chapters (Part I: About this Volume and Textile Research in 2020), follow two chapters referring to dyes and dyeing technology in which analytical and material-based studies are linked to contextual sources (Part II: Interdisciplinarity of Colour: Dye Analyses and Dyeing Technologies). The six chapters of Part III: Interdisciplinary Approaches to Textile Tools discuss textiles and textile production starting from the analyses of tools, whether functional or as representative of technological developments or user identity. Archaeological and cultural contexts as well as textile traditions are the main topics of the six chapters in Part IV: Traditions and Contexts: Fibres, Fabrics, Techniques, Uses and Meanings. The two final chapters in Part V: Digital Tools refer to the use of digital tools in textile research, presenting two different case studies.

The apparel and textiles industry is one of the industries most affected by globalization, and involves complex relationships that are constantly evolving. This carefully-researched book, formally Plunkett's Apparel & Textiles Industry Almanac, covers exciting trends in apparel and textile supply chains; manufacturing; design; women's, men's and children's fashions; shoes; accessories; retailing; trade; distribution; technologies; and smart fabrics. It includes a thorough market analysis as well as our highly respected trends analysis. It also includes thousands of contacts for business and industry leaders, industry associations, Internet sites and other resources. In addition, this book features extensive statistical tables, an industry glossary and thorough indexes. We are careful to detail the latest developments in global trade agreements, third party logistics and retail chain stores, along with important news from China and other emerging nations. The corporate profiles section of the book includes our proprietary, in-depth profiles of the 350 leading companies in all facets of the apparel and textiles industry. Major retailers, distributors, manufacturers and designers are covered thoroughly. You'll find a complete overview, industry analysis and market research report in one superb, value-priced package.

This useful guide provides a hands-on approach to making carbon fibers and their composites for those who need to use these materials. The book begins with a brief history of carbon fiber development, with definition of the terminology for all forms of solid carbon, and the properties of elemental carbon and its allotropic forms. Various carbon fiber precursors, surface treatments, and sizes for a range of carbon fiber types available on the world market are presented. The book gives an excellent overview of the chemical and physical properties of carbon fibers and their composites. In addition, common test and analysis methods for demonstrating these properties are presented. Several chapters describe typical processing methods for carbon fibers with dry and also impregnated semi-finished products in applications such as aerospace, wind, and automotive, as well as the construction industry. The advantages and disadvantages of various manufacturing processes based on application examples are shown. Considerations regarding C-fiber recycling and sustainability (environmental footprint) as well as new developments in the field of carbon fiber manufacturing are intended to assist the reader in the selection and understanding of material, process, and design to achieve successful implementation.

Electrospinning techniques are used to produce novel nanoscale fibrous materials used in a diverse range of applications. Electrospinning: Principles Practice and Possibilities provides a snapshot of the current cutting edge developments of the field. The first chapter introduces readers to electrospinning, followed by different techniques to prepare fibres such as melt electrospinning and colloidal electrospinning, as well as the properties, structures and uses of the nanofibrous materials in energy applications and regenerative medicine and future directions. This balanced and authoritative book will appeal to a broad audience of postgraduate students, industrial and academic researchers in the physical and life sciences as well as engineering.

Textile materials or materials made from textiles are probably among the most important materials in the world. Textile materials are not only present everywhere in modern daily life, but have been for thousands of years. Besides obvious textile applications such as clothes or hometextile there are also many more hidden applications. For example, textile filters, textiles in production processes or composite materials are just a few ways that they can be applied. Altogether, it is implied that modern civilization without textiles is not possible. This book is dedicated to the advances in textile research and application. Here, readers must keep in mind that the final textile in the final application is the product of many different production steps, which is known as the textile chain. Many different disciplines contribute to this textile chain, such as chemistry and machine engineering but also less obvious influences like agricultural science in terms of cotton or wool fiber production. The life of a textile material starts with fiber production; this can be a natural process for plant fibers, animal fibers or regenerated fibers from natural resources. In contrast, chemical fibers see their origin via chemical synthesis. After fiber production, yarn production follows, which is in the field of spinning technology. From the yarn comes the textile materials as fabrics or non-wovens are produced using processes such as weaving, knitting, braiding, etc. These textile products are further modified by dyeing and printing processes. Finishing is often also used to realize special functional properties on a textile product. Finally, the textile product is realized as either cloth, home textile or technical application. Besides technical aspects, design and marketing also play an important role. After following this summary, it is obvious that this book cannot cover every single aspect of textile and textile products. Therefore, this book headlines with every chapter a topic in the area of textile research and application, which is a topic in actual scientific research but also in industrial development. The main topics include: microwave based processes, plasma technology, photoactive textiles, electrospinning, braiding processes, wool materials, coatings, textile functionalization, and UV-protective and light responsive materials This book is dedicated to readers from universities and industries that engage in some form of textile production. For the industry, it can help to promote ideas for new innovative processes and products. For university students especially graduates s it can help to broaden their expertise in very different fields of the textile world. Also, established scientists could benefit from this text to use as a tool to generate new ideas for further research.

The book details the recent and exciting developments on various fronts in the textile field with regard to novel and innovative functionalities, as well as their applications in various industries. Technical textiles are used in various industries for a host of purposes and applications. Recent developments in novel and innovative functionalities to textiles include easy-to-clean or dirt-repellent, flame retardancy, anti-bacterial, and fog-harvesting properties. Textiles for electronics based on graphene, CNTs and other nanomaterials, conductive textiles, textiles for sensor function, textile-fixed catalysts, textiles for batteries and energy storage, textiles as substrates for tissue engineering, and textiles for O/W separation are prevalent as well. All this development has been made possible through adopting novel ways for finishing textiles, e.g., by appropriate surface modification techniques, and utilizing biomimetic concepts borrowed from nature. This unique book is divided into four parts: Part 1: Recent Developments/Current Challenges in Textile Finishing; Part 2: Surface Modification Techniques for Textiles; Part 3: Innovative Functionalities of Textiles; Part 4: Fiber-Reinforced Composites. The topics covered include: Antimicrobial textile finishes; flame retardant textile finishing; "self-cleaning" or easy-to-clean textiles; metallization of textiles; atmospheric pressure plasma, and UV-based photochemical surface modification of textiles; tunable wettability of textiles; 3D textile structures for fog harvesting; textile-fixed catalysts; medical textiles as substrates for tissue engineering; and fiber-reinforced "green" or "greener" biocomposites and the relevance of fiber/matrix adhesion.

Polypropylene (PP) is a typical polymorphic polymer with -form, -form, -form, and mesomorphic smectic form modifications, and crystallises into diverse morphologies. In this book, Chapter One comprehensively reviews the kinds of self-assembly -nucleating agents and the manipulation strategies in the practical processing to control the crystal structure and prepare high-performance PP products. Chapter Two discusses the molecular structure at the cross-linking point of stereoregular isotactic polypropylene (iPP) and syndiotactic polypropylene (sPP) gels in comparison with the crystal formed in the solid state such as film. Chapter Three investigates the thermal insulation performance of polypropylene as thermal insulator for a solar air collector in comparison with coconut fibre. Chapter Four reviews the mechanical properties, crystallisation and degradation of polypropylene due to nucleating agents, fillers and additives. Chapter Five examines polypropylene biodegradation. Chapter Six addresses the potential utilisation of different lignocellulosic biomasses for the development of green materials based on polypropylene, with the objective to elucidate the possibility of using the bio based materials for various industrial applications.

These 2 volume books strive to provide to our readers the most up-to-date core information available in the published literature as well as our yet to be published studies with ample illustrations (total 416) on biodegradable polymers. Much of the information used in this book is from the authors' own research activities over the past several decades. These 2 volume books contain a compilation of new developments in the creation and use of biodegradable polymers including the relatively new polymers designed from the ground up (ie: designing new monomers), the modification of existing biodegradable polymers to achieve particular new goals and functions, new fabrication methods for better efficiency, purity and yields, new engineering methods to formulate existing biodegradable polymers into new physical forms, and new applications of existing or new biodegradable polymers in biomedical and environmental arenas. These 2 volume books contain a total of 28 chapters grouped under 2 volumes. Volume 1 has a total of 14 chapters and 2 sections: Section I Basic degradation study and phenomenon (6 chapters), and Section II Biomedical and environmental applications (8 chapters). Volume 2 has also 14 chapters, and focuses on newly designed biodegradable polymers, and their formulation into different physical forms. The chapters in both volumes have both new original articles and information and review articles with updated and new information. Although the bulk of the chapters in this book (>90%) deal with issues in biomedical fields which are far more challenging, demanding, and costly to resolve, two chapters deal with use of biodegradable materials for environmental impacts. The books are designed for material and polymer scientists and engineers and biomedical engineers in both universities and in industries with an interest in the biomedical field. Biomaterial scientists and engineers, biomedical engineers and even medical professionals who have used implantable polymeric-based medical devices for their practice will find these books coverage of the latest developments and challenges useful either as a comprehensive review or an up to date report of the developments in the field of biodegradable polymers. The contributors include both academic scientists and research scientists in industry, from 10 different countries in North (USA) and South America (Brazil, Argentina), Asia (China, Korea, Singapore) and Europe (Germany, Italy, Spain, Portugal). Therefore, these 2 volume books are truly internationally as well as multidisciplinary-oriented, covering science and engineering without borders.

The development of digital textile printing at the end of the twentieth century has had a profound effect on the design, creation, use and understanding of textiles. This new technology - combined with advances in fabric and dye chemistry - has made it possible to produce complex images on fabric comprising millions of colours, quickly, inexpensively and in flexible quantities; a revolution that has led to a rapid increase in demand, which is predicted to rise still further. This book is the first to describe the historical and cultural context from which digital textile printing emerged, and to engage critically with the many issues that it raises: the changing role of the designer in the creation of printed textiles; the ways in which the design process is being transformed by new technology; the relationships between producers, clients and the textile industry; and the impact of digital printing on the wider creative industries. At the core of this study are two key questions: what constitutes authenticity in an age when printed textiles are created through the combined agency of the artist/designer and the computer? And how can this new technology be put to work in a sustainable way during a period of spiralling demand?