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Macromolecular Engineering: Design, Synthesis and Application of Polymers explores the role of macromolecular engineering in the development of polymer systems with engineered structures that offer the desired combination of properties for advanced applications. This book is organized into sections covering theory and principles, science and technology, architectures and technologies, and applications, with an emphasis on the latest advances in techniques, materials, properties, and end uses - and including recently commercialized, or soon to be commercialized, designed polymer systems. The chapters are contributed by a group of leading figures who are actively researching in the field. This is an invaluable resource for researchers and scientists interested in polymer synthesis and design, across the fields of polymer chemistry, polymer science, plastics engineering, and materials science and engineering. In industry, this book supports engineers, R&D, and scientists working on polymer design for application areas such as biomedical and healthcare, automotive and aerospace, construction and consumer goods. Presents the theory, principles, architectures, technologies, and latest advances in macromolecular engineering for polymer design and synthesis Explains polymer design for cutting-edge applications areas, including coatings, automotive, industrial, household and medical uses Approaches several novel materials, such as polyisobutylene (PIB), polyamide-based polyurethanes, and aliphatic polyesters
The book provides an up-to-date overview of the diverse medical applications of advanced polymers. The book opens by presenting important background information on polymer chemistry and physicochemical characterization of polymers. This serves as essential scientific support for the subsequent chapters, each of which is devoted to the applications of polymers in a particular medical specialty. The coverage is broad, encompassing orthopedics, ophthalmology, tissue engineering, surgery, dentistry, oncology, drug delivery, nephrology, wound dressing and healing, and cardiology. The development of polymers that enhance the biocompatibility of blood-contacting medical devices and the incorporation of polymers within biosensors are also addressed. This book is an excellent guide to the recent advances in polymeric biomaterials and bridges the gap between the research literature and standard textbooks on the applications of polymers in medicine.
Libraries are currently confronted by the challenges of managing increasing amounts of electronic information. Print vs. Digital: The Future of Coexistence presents the expert perspectives of eight of America’s leading library administrators on ways to effectively manage digital flow and offers strategies to provide a level of coexistence between digital and print information. This excellent overview explores how to best balance print and electronic resources, and explores important issues such as the selection of electronic resources, improving access to digital information for a larger user base, and effective management of a library’s fiscal and personnel resources. Print vs. Digital: The Future of Coexistence discusses the various challenges libraries now face from the massive influx of digital resources, including the ways that information-seeking behaviors have changed, the search for synergies between print and digital, economics of news preservation, and whether or not the end of print journals is at hand. New ideas and technological advances are explored, including the diverse ways these improvements will impact the future. This well-referenced resource includes useful tables, figures, and photographs. Topics in Print vs. Digital: The Future of Coexistence include: cooperative collection development balance of print and electronic resources evolvement of digital resources in libraries change in research libraries factors influencing the selection of electronic resources disseminating information about scholarly collections impact of digital resources on research behavior and techniques design of digital libraries JSTOR effects of digital information on reference collections transition of print journals to digital formats Print vs. Digital: The Future of Coexistence is a thought provoking, insightful resource on the future of libraries, invaluable for acquisitions, reference, and collection development librarians; and senior and mid-level administrators such as deans, directors, and department heads for public, special, and academic libraries.
How do you make the case that your library is a valuable instruction center? The Teaching Library helps librarians assess data on information literacy instruction programs so that they can better support the teaching role of the academic library in campus settings. This practical, professional resource features case studies from across the United States and Canadain both public and private institutionsthat offer a variety of evaluation methods. Here are the latest, easy-to-adopt ways of measuring your library's direct contribution to student learning, on-campus and off.
Research on applications of polymers for biomedical applications has increased dramatically to find improved medical plastics for this rapidly evolving field. This book brings together various aspects of recent research and developments within academia and industry related to polymers for biomedical applications.
Additive manufacturing (AM) methods have grown and evolved rapidly in recent years. AM for polymers is an exciting field and has great potential in transformative and translational research in many fields, such as biomedical, aerospace, and even electronics. Current methods for polymer AM include material extrusion, material jetting, vat polymerisation, and powder bed fusion. With the promise of more applications, detailed understanding of AM—from the processability of the feedstock to the relationship between the process–structure–properties of AM parts—has become more critical. More research work is needed in material development to widen the choice of materials for polymer additive manufacturing. Modelling and simulations of the process will allow the prediction of microstructures and mechanical properties of the fabricated parts while complementing the understanding of the physical phenomena that occurs during the AM processes. In this book, state-of-the-art reviews and current research are collated, which focus on the process–structure–properties relationships in polymer additive manufacturing.