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The remarkable properties of silk fibres have gained them a prominent place in the field of technical textiles. Advances in Silk Science and Technology explores recent developments in silk processing, properties and applications. Techniques for manufacturing spider silk are also discussed and the current and future applications of this fibre are reviewed. Part One focuses on the properties and processing of silk from both silkworms and spiders. It addresses recent advances in our understanding of the properties of silk and offers systematic coverage of the processing of silk from spinning through to finishing, as well as an analysis of quality testing for silk fibres, yarns and fabrics. Part Two then addresses important applications of silk from silkworms and spiders, and includes chapters on the use of silk in polymer matrix composites and in different kinds of biomaterial. The book concludes with a chapter on developments in the use of silk waste. Reviews the properties of silk from both silkworms and spiders Offers systematic coverage of the processing of silk from spinning through to finishing Cover a range of applications, including on the use of silk in polymer matrix composites and in different kinds of biomaterial
Science and Technology of Silkworm Sericin: Extractions, Modifications and Applications focuses on the development and performance of many novel strategies for sericin extraction, modification, and its application. This book includes contributions from leading researchers in the fields of materials science, medical science, chemical science, and nanotechnology from companies, university, government, and private research institutes all around the world. Graduates and postgraduates, as well as research experts, will find this book to be an invaluable resource (primarily in the field of materials science, medicinal chemistry, organic chemistry and nanoscience and nanotechnology). In addition, nearly every analytical approach has been covered. As a result, academics, students, industry, scientists, and end-users will be able to benefit from it.
This book is a snapshot of the current state of the art of research and development on the properties and characteristics of silk and their use in medicine and industry. The field encompasses backyard silk production from ancient time to industrial methods in the modern era and includes an example of efforts to maintain silk production on Madagascar. Once revered as worth its weight in gold, silk has captured the imagination from its mythical origins onwards. The latest methods in molecular biology have opened new descriptions of the underlying properties of silk. Advances in technological innovation have created silk production by microbes as the latest breakthrough in the saga of silk research and development. The application of silk to biomaterials is now very active on the basis of excellent properties of silks including recombinant silks for biomaterials and the accumulated structural information.
Volume is indexed by Thomson Reuters BCI (WoS). This special issue covers mainly electrospinning, vibration-electrospinning, bubble electrospinning and blown bubble spinning, and it is a good reference not only for materials science, but also for various communities in physics, nanotechnology and chemistry.
Silk: Materials, Processes, and Applications addresses the latest research on the structure and properties of silk fibers, properties of silk-based materials, and cutting edge-related industrial practices. It pays particular attention to mulberry silk, but unconventional silks such as spider silk and marine silk fibers are also covered. Although silk is one of the oldest known fibers, new research continues to shed light on its properties, leading it to be applied in new contexts particularly in the medical field, and new non-textile areas. In addition to structural and mechanical qualities, this book also includes a great deal of new research on the chemical modifications of silk fibers, and other processing methods. With a focus on practical methodologies, this is the most readable and readily applicable book on silk so far, making it a perfect guide for readers with a range of backgrounds. Addresses the fundamental differences between mulberry, spider, and wild silks Describes silk fiber and non-fiber forms, including hydrogels and films In-depth coverage of silk-processing methods provides the perfect starting point for biotechnologists interested in the use of silk for non-textile applications
Many nations are currently adopting a variety of directed strategies to launch and support research parks, often with significant financial commitments and policy support. By better understanding how research parks of other nations operate, we can seek to improve the scale and contributions of parks in the U.S. To that end, the National Academies convened an international conference on global best practices in research parks. This volume, a report of the conference, includes discussion of the diverse roles that research parks in both universities and laboratories play in national innovation systems. The presentations identify common challenges and demonstrate substantial differences in research park programs around the world.
Silk is a protein-based, usually fibrous, material produced by many invertebrates. It can be used to catch or subdue prey, protect the animal and/or its eggs, or for defence. Each type of silk has its own unique set of properties, which makes certain silks useful for human uses. One type of silk in particular, that produced by the mulberry silkworm moth, has been used for millennia as a fibre for developing luxurious textiles and apparel. Silk and the animals that produce it are thus very curious. This book overviews the diversity of silk-producing animals, comparing the types of silks produced by each of them and their functions, properties, and secretory mechanisms. The properties of each type of silk are explained by examining the chemistry of the proteins. Having established the mechanism of silk performance, the book investigates the applications of different silks, both throughout history and into the future, with explanations on how silk production is proceeding in the age of genetic engineering. Of particular mention is spider dragline (or major ampullate) silk, as it the silk considered the toughest of the silks, and is of research interest to the author.
Reviews all the significant research undertaken on silk. The primary objective of the book is to create an awareness of the research in the field and stimulate readers to explore more about the fibre. The book will be invaluable for students carrying out project work, as well as for scholars and researchers.