As this book is the first book worldwide in the "sustainable" management of luxury area, it highlights key aspects in the sustainable management of luxury based on presentations using different approaches, whether reflexive, empirical, hands-on or applied theory and cases.

This handbook collects over 800 infrared spectra of rubbers, plastics and thermoplastics elastometers. It contains five different libraries: rubbers in transmission spectroscopy, rubbers in pyrolysate spectroscopy, plastics in transmission spectroscopy, plastics in pyrolysate spectroscopy, and rubbers and plastics in single-bounce ATR spectroscopy. This is an invaluable reference for the rubbers and plastics industry.

Fibre Science and Technology is one of six titles in a coherent and definitive series of volumes dedicated to advanced composite materials research, development and usage in the former Soviet Union. Much of the information presented has been classified until recently. Thus each volume provides a unique insight into hitherto unknown research and development data. This volume deals with the basic components of a composite material, namely the reinforcement and the encasing matrix material. Beginning with a specification of a range of reinforcing fibres (glass, carbon, organic, inorganic, ceramic), the book then considers in detail the development of such fibres and the significant range of properties achieved. An extensive test methodology used to evaluate the physical and mechanical properties of each type of fibre matrix combination is presented, and the production method employed for each constituent part is described. This book will be of interest to anyone involved in research or development in composite materials science and technology, both in industry and universities.

J.J. Pizzuto's Fabric Science Swatch Kit, 12th Edition reinforces the study of textiles for students in courses such as Fashion Design, Fashion Business, Merchandising, Fashion Retailing, Interior Design, Textile Surface Design, Textile and Apparel Product Development, and Textile Production Management. The kit contains 114 (2"x 3") fabric samples, a fabric key, 32 special assignments, heavy-weight sample sheets to mount and analyze fabrics, and a pick glass--all contained in a three-ring binder. The swatches are organized in the order in which they are covered in the text: fibers, yarns, weaves, knits, dyeing, printing, and finishes. Swatches represent the types of fabrics currently available to fashion and interior designers in the field, making this resource an excellent addition to any professional library. Key Features Include -The text contains instructions and video tutorials that take students through the process of assembling their swatch kit and using a pick glass. -A Fabric Key identifies the swatches by number and fabric name, description, and fiber content. -Assignments are designed to reinforce the text and classroom lectures and have been developed by FIT instructors to broaden students' understanding of key concepts in textiles through hands-on labs and problem solving activities. -Students will successfully develop keen observation, analysis, and report writing skills. -J.J. Pizzuto's Fabric Science Swatch Kit is an ideal companion to J.J. Pizzuto's Fabric Science, 12th Edition (ISBN 9781501367878, available as a separate purchase) or can also be used alone or in conjunction with any textiles textbook. Fabric Science Swatch Kit STUDIO Resources Include -Watch videos with step-by-step demonstrations on how to compile the swatch kit Instructor's Resources -Instructor's Swatch Set including 7" x 12" samples of each fabric (ISBN 9781501368059) -Instructor's Guide provides specific information about each of the swatches in the Swatch Kit, special assignments, questions (with answers), and instructional comments -PowerPoint (R) presentations include full-color images from the book and provide a framework for lecture and discussion

Functional and Technical Textiles covers recent advances in technology, properties and performance of high-tech yarns and structures and their applications in different sectors of the smart and technical textile fields. Applications, including many that go beyond apparel, where high tech and functional structural fabrics are used as reinforcements for composites, medical implants and geotextiles are covered. The book also describes the latest technologies for producing versatile products for these diversified applications. Finally, the book makes a survey of the latest research in technical textiles and its various structures, properties and applications in composites, medical textiles, geotextiles, industrial textiles, and more.

This practice-oriented book deals with the modelling of steady state and non-steady state basic processes of fibre formation and fibre processing. Focal points are melt spinning processes, spun yarn spinning processes and the description of the dynamics in different process steps during the fibre processing. A special chapter deals with dynamics of tensile force and its importance for the process stability. All examples are based on industrial practice.

The Wellington Sears Handbook of Industrial Textiles has been a widely used textile industry reference for more than 50 years. Now a completely updated new edition has been published. It was prepared by a team of industrial textile specialists at Auburn University to provide both technical and management personnel with a comprehensive resource on the current technology and applications of today's industrial textiles.
All aspects of industrial textiles are covered: man-made and natural materials, manufacturing and finishing methods, and all applications. There are also sections on properties, testing, waste management, computers and automation, and standards and regulations. The appendices provide extensive reference data: properties, specifications, manufacturers and trade names, mathematical equations and measurement units. The text is organized for easy reference, and well illustrated with hundreds of schematics and photographs.

Fiber and Textile Engineering in Drug Delivery Systems explains how innovative textile processing methods including rotary spinning, microfluidics, wet spinning and electrospinning can be used to produce novel drug delivery solutions. This topical book provides detailed descriptions of how to produce such new materials for this purpose, with foundational content to help readers from a range of backgrounds understand the context of material selection and design decisions. Emphasis is given to the engineering side of the manufacturing of the textile and its role in drug delivery, but this also acts as a guide to pharmaceutical applications of textile fibers for materials scientists. Drug delivery research is rapidly expanding and experimenting with new materials to drive improved clinical outcomes as the efficacy of the therapeutic molecule is highly dependent on the right choice of carrier system. Recently, fiber based carriers at both nano and micro scales are gaining interest in the scientific community due to ease of manufacturing, high surface area to volume ratio, desirable drug release kinetics and high mechanical strength.

Smart Clothes and Wearable Technology, Second Edition focuses on the design process, material selection, garment construction, and new production techniques for smart clothing. Building on the success of the previous edition, this book brings wearable technologies ever closer to market with its design-led approach to the integration of technologies into textiles. This design-led, cross-disciplinary approach to the development of hybrid processes ensures that results are both attractive and usable to wider audiences. The book will also help designers adapt their product development processes in response to novel textile and garment manufacturing technologies. Case studies showing best practices and warning of pitfalls help the reader develop applications and products in the real world. The differences between testing and design for smart and traditional clothes are also discussed.

This book deals with the important aspects of green fashion including Animal Welfare in Ethical Fashion, Sustainable Processing of Textiles, Sustainable design case studies, Wool Composting, Consumer behaviour in sustainable clothing market, industrial case studies related to green fashion, etc.

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 adopts a case study based research approach to examine the contemporary issues in the fashion industry. It documents real-world practices in fashion business from production, marketing to operations. Founded on an extensive review of literature, these case studies discuss the challenges that are pertinent to the current business environment in this important industry, provide benchmarks and generate insights to practitioners as well as suggest future directions to researchers. The book serves as a nexus of the theories and the industrial practices that advances knowledge for both the academia and the private sector in fashion business.

A critical issue in research and development (R&D) management is the structure and use of evaluative efforts for R&D programs. The book introduces the different methods that may be used in R&D evaluation and then illustrates these methods by describing actual evaluation in practice using those methods. The book is divided into two sections. The first section provides an introduction and details on several popular methodologies used in the evaluation of research and development activities. The second half of the book focuses on evaluation in practice and is comprised of several chapters offering the perspectives of individuals in different types of organizations. The book concludes with an annotated bibliography of selected R&D evaluation literature, focusing on post-1985 literature, on research evaluation.

This book covers the elements involved in achieving sustainability in textiles and Clothing sector. The chapters to be covered in three volumes of this series title cover all the distinctive areas earmarked for achieving sustainable development in textiles and the clothing industry. This second volume deals with the measurement of environmental and societal impacts across the textiles and clothing supply chain. It addresses this important aspect in a comprehensive way including the overall picture of environmental and societal impacts of textiles and clothing supply chain, environmentally sustainable clothing consumption, emerging green technologies and eco-friendly products for sustainable textiles, etc. This volume has a dedicated place to deal with the consumer phase impacts in the life cycle of clothing products, biodegradation of textile products, sustainable business development and its implications in textile sector.

Textiles and Their Use in Microbial Protection: Focus on COVID-19 and Other Viruses provides readers with vital information about disinfection mechanisms used in textile applications in the fight against dangerous microbes and viruses. KEY FEATURES: Introduces the basics of textile materials used for medical applications Features key information on virology, characterization, indication, and passivation of COVID-19 Describes UV, photocatalysis, photooxidation, application of TiO2, copper-based viral inhibition, and activated carbon Discusses antiviral finishes for the protection against SARS-CoV-2, particle penetration in dense cotton fabrics under swollen state, and the impact of moisture on face masks and their designs Aimed at textile and materials engineers as well as readers in medical fields, this text offers a comprehensive view of fundamentals and solutions in the use of textiles for microbial protection.

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 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.

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)

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.

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.

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.

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.

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.

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.