Tekstiler og fibre

Hybrid Polymeric Systems for Biomedical Applications explores the development and utilization of hybrid polymeric systems for use in a range of biomedical applications. Hybrid systems combine the specialized properties of each polymer type to produce a more targeted material which is much more tightly aligned with the intended application and outcome. This book covers a broad selection of hybrid polymeric systems as well as a variety of key biomedical applications, including tissue engineering, drug delivery, wound healing, and more.

Technical Organic and Inorganic Fibres from Natural Resources focuses on recent advances in the synthesis, processing, characterization, and application of non-textile fibers. The book provides a general introduction to the uses of natural fibers in technical textile applications while also reviewing the latest technical methods for producing these high-performance materials. As the textile industry is focused on finding alternative green fibers with the aim of providing high quality products which are fully recyclable and biodegradable, natural fibers from renewable sources play an increasingly important role in the industry due to their unique properties and functionality.

Structural Health Monitoring/Management (SHM) in Aerospace Structures provides readers with the spectacular progress that has taken place over the last twenty years with respect to the area of Structural Health Monitoring (SHM) Management. The SHM field encompasses transdisciplinary areas, including smart materials, sensors and actuators, damage diagnosis and prognosis, signal and image processing algorithms, wireless intelligent sensing, data fusion, and energy harvesting. This book focuses on how SHM techniques can be applied to aircraft, mechanical and civil engineering structures with particular emphasis on composite materials. This will be a valuable reference resource for R&D managers, materials scientists, and engineers working in the aerospace sector, for researchers and system designers working in industry, and for academia and government research agencies developing new systems for the SHM of aerospace, mechanical, and civil engineering structures.

Smart Textiles from Natural Resources is an interdisciplinary guide for best practices and emerging challenges in the use of natural textiles in smart applications. The movement towards smart textiles has attracted researchers from many fields creating multidisciplinary research frontiers with nanoscience, smart materials and structures, microelectronics, and wireless communication. This groundbreaking book provides technical advice and foundational support to researchers from all of these backgrounds. Each chapter in is written, reviewed, and edited to cover the principles of manufacture, process techniques and mechanisms, and state-of-the-art construction specifications, properties, test methods, and standards of major product areas and applications.

Amongst thermoplastic biodegradable polymers, polylactic acid (PLA) has been widely used in many different applications but it still has limited use in various industrial sectors such as medical, packaging, textile, water, and wastewater treatment. To increase the use of these materials more information is needed on their properties, characterization, processing, safety, and sustainability. Natural Fibre-Reinforced PLA Composites: Processing, Characterization and Applications reviews the thermal, physico-chemical, fire retardant, mechanical, tribological, biodegradable and anti-microbial properties of these materials. Fabrication of PLA biocomposites using advanced fabrication techniques like additive manufacturing and electrospinning are also discussed in detail. The book will be a valuable reference for academic and industrial researchers, materials scientists and engineers working in the development of polymers, bioplastics, polymer composites and biocomposites as well as industrial manufacturers.

This applications-oriented book describes the construction of an injection mold from the ground up. Included are explanations of the individual types of molds, components, and technical terms; design procedures; techniques, tips, and tricks in the construction of an injection mold; and pros and cons of various solutions.Based on a plastic part ("bowl with lid") specially developed for this book, easily understandable text and many illustrative pictures and drawings provide the necessary knowledge for practical implementation. Step by step, the plastic part is modified and enhanced. The technologies and designs that are additionally needed for an injection mold are described by engineering drawings. Maintenance and repair, and essential manufacturing techniques are also discussed.With full-color illustrations, this third edition builds on the success of the previous ones, with significantly expanded coverage of molding simulation, including many new figures, and updates and small corrections throughout the book.

This book offers an up-to-date, platform-independent introduction to injection molding simulation, which plays a very important role in the design of molds and molded parts as well as process development and optimization. The content is structured and conveyed within an engineering framework. Complicated mathematical derivations are avoided as far as possible.The necessary environment of the injection molding simulation is illuminated alongside, so that the build-up of a suitable simulation model and the interpretation of the results are made possible, and knowledge of the model-specific limits is imparted. Guidance is also provided regarding the interpretation of results so that they can be better evaluated quantitatively.The book is designed as a textbook and thus is suitable to accompany courses covering injection molding simulation. The content is largely independent of any particular software package; however, introductory practice examples for Autodesk Moldflow Insight, CADMOULD and Moldex3D are included as step-by-step instructions.

Turn your passion and inspiration into a must-have bag collection and launch your own successful brand.Handbag design is more than just a creative pursuit-it's also a business. This book is a practical guide to developing your design skills alongside the vital business know-how you'll need to avoid costly mistakes. Ann Saunders leads you through the whole process from initial concepts through to sampling, manufacturing, marketing, and retail. You'll learn how to navigate the challenges of sourcing materials, finding a manufacturer, creating a bespoke brand, developing a sales strategy, and growing your business.Throughout the book Ann's former students, who have established their own successful brands, share their real-world insights into the challenges of becoming a designer/entrepreneur in today's highly competitive accessories market. With more than 150 images, charts and illustrations, Design, Manufacture and Sell Your Bag Collection includes detailed advice on:The Creative Process, Researching Your Brief, Knowing Your Customer, Designing Your Bag, Critical Paths, Materials, Hardware, Understanding Bag Construction, Completing Your Design, Planning a Range, Sampling, Manufacturing, Branding, Marketing, Business Planning, Sustaining Your Business, and Sustainability

Metal-Chalcogenide Nanocomposites: Fundamentals, Properties, and Industrial Applications focuses on metal chalcogenide nanomaterials for environmental remediation and corrosion applications. The book's chapters focus on cost-effective and facile fabrication approaches, their growth mechanisms, optical, electrical, and other important properties, and their applications in a broad range of diverse fields such as photocatalysis, photovoltaics, hydrogen production, lithium batteries, energy storage, anticorrosion, and sensor devices. The book will be an important information source for both material scientists and engineers who want to create the next generation of products and devices for energy and environmental applications.

Bioresorbable Polymers and their Composites: Characterization and Fundamental Processing for Pharmaceutical and Medical Device Development provides a holistic view of these unique materials and their usage in a range of biomedical applications. The book is evenly divided between fundamentals, processing methods and modeling approaches, and includes detailed coverage of a variety of applications, such as drug delivery, medical devices and wound healing. Key aspects including biocompatibility, biodegradability and toxicology are also thoroughly covered, enabling the reader to be fully informed when fabricating and utilizing their selected bioresorbable polymer. This book is an interdisciplinary and important reference for researchers in the fields of materials science, biomedical engineering, pharmaceutical science and regenerative medicine, as well as R&D groups in the development of medical devices.

The Handbook of Natural Polymers Volume Three : Versatile Applications explores advanced and emerging applications of polymers from natural sources. The book introduces the state-of-the-art, along with opportunities in natural polymers with advanced applications before presenting coverage of natural polymers applied to specific cutting-edge applications. Areas covered include biosensing, drug carriers, cosmetics, tissue engineering, textiles, adhesives and coatings, food, super adsorbents, automotive and construction, 3D printing, paper, nanoelectronics, energy storage, military, smart devices, water purification, dentistry, agriculture, and packaging. In each case, a methodical approach enables readers to understand natural polymer sources, preparation, properties, appropriate applications, emerging materials and new avenues. The final two chapters consider end-of-life themes, including environmental remediation of natural polymers and their transformation to biofuels. As part of a Three-volume handbook offering comprehensive coverage of natural polymers, this book will be of interest to all those looking to gain a broad knowledge of natural polymers, including academic researchers, scientists, advanced students, engineers and R&D professionals from a range of disciplines and industries.

Textile-based compression therapy is used in a range of applications, such as for athlete and sport recovery, enhanced proprioception, compression spacesuits, and in the management of chronic diseases. This book provides an overview of compression devices and products, testing methods to measure the properties of materials used in compression devices, and design considerations based on dynamic body measurements. It also includes a model for predicting pressure and details the challenges in applying compression for various applications.Chapters in this book:Discuss the science behind compression therapyDelve into the materials used in compression devices and products and assesses their performance based on their properties and structureCover theoretical modeling to predict the pressure exerted by compression devices on the human bodyConsider compression textile design based on dynamic body measurementsThis book is aimed at professionals and researchers in textile engineering, materials engineering, biotechnology, and the development of textile-based compression devices and products, and at such medical practitioners as phlebologists.

A fascinating look at the world of small-scale textile farms along the Salish Sea and their pivotal role in sustainable, artisanal textile production and the slow fashion movement.Vancouver Island and the Gulf Islands are a part of a unique geographical region that can grow and process its own raw textile materials with transparency. This book explores the region¿s vibrant fleece and fibre community and introduces the public to this growing land-based textile economy. Richly illustrated with captivating photography, Fleece and Fibre presents the many fibre types produced along the Salish Seäincluding sheep wool, llama, alpaca, mohair, cashmere, linen, flax, and hemp¿and explains where and how they are currently being grown, processed, and used. At a time when the global textile industry is one of the most unsustainable and exploitative industries on the planet, the public is looking for local alternatives to fast fashion. Part sourcebook, part stunning coffee table book, and part call to action, Fleece and Fibre creates new connections between farmers, raw materials, makers, designers, dyers, and wearers.

Advanced Ceramic Coatings for Energy Applications covers recent developments in conducting electrodes, photovoltaics, solar cells, battery applications, fuel cells, electrocatalysts, photocatalysts, and supercapacitors. The book is one of four volumes that together provide a comprehensive resource in the field of Advanced Ceramic Coatings, also including titles covering: fundamentals, manufacturing, and classification; biomedical applications; and emerging applications. These books will be extremely useful for academic and industrial researchers and practicing engineers who need to find reliable and up-to-date information about recent progresses and new developments in the field of advanced ceramic coatings. Smart ceramic coatings contain multifunctional components are now finding application in transportation and automotive industries, in electronics, and energy, sectors, in aerospace and defense, and in industrial goods and healthcare. Their wide application and stability in harsh environments are only possible due to the stability of the inorganic components that are used in ceramic coatings.

Advanced Hybrid Composite Materials and Their Applications provides a basic understanding of the engineering of hybrid composite materials. The main topics covered include the fundamental principles of hybrid composite materials, their properties, chemistry, fabrication, and applications. New and modern ways of synthetic engineering are also discussed in detail. The book brings together two very important classes of engineering materials and explains their properties in an easy-to-understand manner. It also covers the latest research outcomes and new technologies from synthetic processes right though to recent applications in different industrial sectors. This book will benefit those with no previous background knowledge as well as the expert working in this field. It will serve as a single comprehensive information resource on various types of engineering materials.

Porous Coordination Polymers: From Fundamentals to Advanced Applications offers a comprehensive coverage the latest advances in porous coordination polymers for cutting-edge applications. Porous Coordination Polymers are gaining increasing interest due to their attractive properties, such as structural flexibility, large surface area, tailorable pore size, and functional tunability, in turn enabling a wide range of possible applications which this book aims to highlight and to elucidate. The book begins by introducing porous coordination polymers, highlighting their structure, chemistry, basic properties, and design approaches. This is followed by a chapter focusing on synthetic methods and mechanical properties. Subsequent chapters provide in-depth coverage of specific target applications, explaining the preparation of porous coordination polymers for areas including catalysis and photocatalysis, environmental remediation, gas storage and separation, energy storage and conversion, new generation magnets, nanocarriers in therapeutics, and biomedical imaging. Finally, current challenges and future developments are considered in detail.