Composite materials are traditionally designed for the mechanical properties, due to their structural applications. However, composite materials are increasingly used in non-structural applications, such as electronic packaging and thermal management. Moreover, structural composite materials that are multifunctional are increasingly needed, due to the demand of smart structures and the importance of weight saving. As a consequence, structural materials that can provide electronic functions are needed. Thus, electronic functions are desirable for both non-structural and structural composite materials.
Composite Materials is a modern reference book, tutorial in style, covering functions of composites relating to applications in electronic packaging, thermal management, smart structures and other timely technologies rarely covered in existing books on composites. It also treats materials with polymer, metal, cement, carbon and ceramics matrices, contrasting with others that emphasise polymer-matrix composites. This functional approach will be useful to both practitioners and students. A good selection of example problems, solutions and figures, together with a new and vibrant approach, provides a valuable reference source for all engineers working with composite materials.
Materials selection is a crucial factor in determining the cost, quality, and corrosion protection for every engineering project. The variety of increasingly durable materials and their combinations, coupled with the rise of new and more critical service requirements and the demand for lower costs, have expanded upon trial-and-error criteria into m
Today, architects and designers are beginning to look toward developments in new "smart" or "intelligent" materials and technologies for solutions to long-standing problems in building design. However, these new materials have so far been applied in a diverse but largely idiosyncratic nature, because relatively few architects have access to information about the types or properties of these new materials or technologies. Two of the leading experts in this field - Addington and Schodek - have solved this problem by incorporating all the relevant information of all the latest technologies available to architects and designers in this one volume. They present materials by describing their fundamental characteristics, and go on to identify and suggest how these same characteristics can be exploited by professionals to achieve their design goals. Here, the wealth of technical understanding already available in the materials science and engineering literature is at last made accessible to a design audience.
This book provides an up to date survey of the state of the art of research into the materials used in information technology, and will be bought by researchers in universities, institutions as well as research workers in the semiconductor and IT industries.
The first edition of "Composite Materials" introduced a new way of looking at composite materials. This second edition expands the book’s scope to emphasize application-driven and process-oriented materials development. The approach is vibrant yet functional.
In the last decade, there has been an influx in the development of new technologies for deep space exploration. Countries all around the world are investing in resources to create advanced energetic materials and propulsion systems for their aerospace initiatives. Energetic Materials Research, Applications, and New Technologies is an essential reference source of the latest research in aerospace engineering and its application in space exploration. Featuring comprehensive coverage across a range of related topics, such as molecular dynamics, rocket engine models, propellants and explosives, and quantum chemistry calculations, this book is an ideal reference source for academicians, researchers, advanced-level students, and technology developers seeking innovative research in aerospace engineering.
Ch. 1. 21st century challenges for biomaterials / Larry L. Hench -- ch. 2. Stem cell technology: hope or hype? / Larry L. Hench and Julian R. Jones -- ch. 3. Bioactive materials for gene control / Larry L. Hench -- ch. 4. Nanoparticles for novel healthcare therapeutics / Sudipta Seal [und weitere] -- ch. 5. Glass microspheres for cancer treatment / Delbert E. Day -- ch. 6. Bioactive glasses and angiogenesis / Alejandro A. Gorustovich, Luis A. Haro Durand, Aldo R. Boccaccini -- ch. 7. Clinical applications of bioactive glasses for maxillo-facial repair / Ian Thompson -- ch. 8. Clinical applications of bioactive glass-ceramics / Takao Yamamuro -- ch. 9. Hierarchical porous scaffolds for bone regeneration / Julian R. Jones -- ch. 10. Cartilage regeneration / Adam C. Grochowski and MIchael B. Fenn -- ch. 11. Hydrogels for tissue engineering of articular cartilage / Javier S. Castro -- ch. 12. Total knee replacements / Jason Wertz -- ch. 13. Total hip replacement / Kim Elshot Alvarez -- ch. 14. Bioactive surfaces for total hip prosthesis / Takao Yamamuro -- ch. 15. Artificial skin and wound dressings / Krystle Placencio [und weitere] -- ch. 16. Degenerative disc disease in the lumbar spine / Russell Beal -- ch. 17. Shoulder repair / Shane D. Smith -- ch. 18. Drug-eluting stents: worth the risk? / Adam Estelle -- ch. 19. Treating aortic aneurysms / Rochellee Manygoats -- ch. 20. Abdominal aortic aneurysms: treatment and repair / John Ashton -- ch. 21. Heart valve stenosis and surgical repair: present and future / Scott Cooper -- ch. 22. Prosthetic vascular grants for treatment of peripheral arterial disease / Margo Ellis -- ch. 23. Small-diameter vascular grafts / Kyle Marr -- ch. 24. Spinal cord repair: current methods and limitations / Julie Lockwood -- ch. 25. Spinal cord repair for paraplegics / Jeffrey Calhoun -- ch. 26. Brain-machine interfaces / Matthew Goodman -- ch. 27. Stem cell research for treatment of Parkinson's disease / Colleen Young and Michael B. Fenn -- ch. 28. Tissue engineering for corneal regeneration / Ayyasamy Aruchamy -- ch. 29. Development of Lasik: laser-assisted in situ keratomileusis -- ch. 30. Hearing devices: experiencing a world of sound / Savannah Burnside -- ch. 31. Glass-ceramic dental restorations / Wolfram Holand and Volker M. Rheinberger -- ch. 32. Pain-desensitizing dental materials / David C. Greenspan -- ch. 33. Ethical considerations in biomaterials research and development / Mrinal K. Musiband and Subrata Saha -- ch. 34. The ending / Larry L. Hench
Radiation Technology for Advanced Materials presents a range of radiation technology applications for advanced materials. The book aims to bridge the gap between researchers and industry, describing current uses and future prospects. It describes the mature radiation processing technology used in preparing heat shrinkable materials and in wire and cable materials, giving commercial cases. In addition, the book illustrates future applications, including high-performance fibers, special self-lubricating materials, special ultra-fine powder materials, civil fibers, natural polymeric materials, battery separator membranes, special filtration materials and metallic nanomaterials. Chapters cover radiation technology in high-performance fiber and functional textiles, radiation crosslinking and typical applications, radiation crosslinking for polymer foaming material, radiation degradation and application, radiation emulsion polymerization, radiation effects of ionic liquids, radiation technology in advanced new materials, and future prospects. - Presents a range of radiation technology applications and their application to advanced materials - Covers the mature radiation processing technology used to prepare heat shrinkable materials and wire cable materials, describing real-world commercial applications - Shows the promising application of radiation technology in preparing high-performance Si and carbon fibers - Describes the radiation degradation/radiation effect used to prepare fine powder materials - Discusses radiation modification and radiation grafting techniques used to synthesize materials, such as civil fibers, natural polymeric materials and others
Today, architects are looking for new solutions to old problems, including 'smart' and 'intelligent' materials that can be applied to building design. This text covers the use of smart materials in a design perspective, as well as describing how these solutions could be utilised in other applications.
