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Ceramic Materials
Ceramic Materials: Science and Engineering is an up-to-date treatment of ceramic science, engineering, and applications in a single, comprehensive text. Building on a foundation of crystal structures, phase equilibria, defects, and the mechanical properties of ceramic materials, students are shown how these materials are processed for a wide diversity of applications in today's society. Concepts such as how and why ions move, how ceramics interact with light and magnetic fields, and how they respond to temperature changes are discussed in the context of their applications. References to the art and history of ceramics are included throughout the text, and a chapter is devoted to ceramics as gemstones. This course-tested text now includes expanded chapters on the role of ceramics in industry and their impact on the environment as well as a chapter devoted to applications of ceramic materials in clean energy technologies. Also new are expanded sets of text-specific homework problems and other resources for instructors. The revised and updated Second Edition is further enhanced with color illustrations throughout the text.
Ten Materials That Shaped Our World
This book examines ten materials—flint, clay, iron, gold, glass, cement, rubber, polyethylene, aluminum, and silicon—explaining how they formed, how we discovered them, why they have the properties they do, and how they have transformed our lives. Since the dawn of the Stone Age, we have shaped materials to meet our needs and, in turn, those materials have shaped us. The fracturing of flint created sharp, curved surfaces that gave our ancestors an evolutionary edge. Molding clay and then baking it in the sun produced a means of recording the written word and exemplified human artistic imagination. As our ability to control heat improved, earthenware became stoneware and eventually porcel...
A Modern History of Materials
What could the ancient Egyptians tell us about 3D printing? How can we make lithium-ion batteries greener and more sustainable? Which materials will form the heart of future quantum computers? Plastic films, glass optical fibers, silicon crystals, and more — this book is about the history of the materials that have rapidly transformed our society over the last century and their role in the major global challenges of the future. From metal alloys ushering in a new age of industry to advanced materials laying the atomic brickwork of the Digital Revolution, the book examines the societal impact of the modern materials revolution through the twin lenses of stability and sustainability. Why aren’t maglev trains mainstream? Whatever happened to graphene and carbon nanotubes? The book also looks at the unmet promises of some of the most exciting — and hyped — technologies in recent decades — superconductivity and nanotechnology. The final chapter reviews our history of materials usage, the increasing demand for many critical raw materials, and addresses the upcoming new challenges for creating a circular economy based on reusing and recycling materials.
X-Ray Diffraction
In this, the only book available to combine both theoretical and practical aspects of x-ray diffraction, the authors emphasize a "hands on" approach through experiments and examples based on actual laboratory data. Part I presents the basics of x-ray diffraction and explains its use in obtaining structural and chemical information. In Part II, eight experimental modules enable the students to gain an appreciation for what information can be obtained by x-ray diffraction and how to interpret it. Examples from all classes of materials -- metals, ceramics, semiconductors, and polymers -- are included. Diffraction patterns and Bragg angles are provided for students without diffractometers. 192 illustrations.
The Grant Family
Matthew Grant (1601-1681) and his family emigrated from England to Dorchester, Massachusetts in 1630, and in 1635 moved to Windsor, Connecticut. He married twice (once in England, once in Windsor). Descendants lived throughout the United States and elsewhere. Includes genealogy of President Ulysses S. Grant (1822-1885).
Innovative Processing and Synthesis of Ceramics, Glasses, and Composites V
The most recent advancements in the areas of ceramic/composite processing and characterization are presented in this new volume. Selected topics include sol-gel processing, microwave sintering, reaction forming/bonding, polymer precursors, rapid prototyping, mechanical alloying, diamond and diamond-like structures, and functionally graded materials. Proceedings of the symposium held at the 103rd Annual Meeting of The American Ceramic Society, April 22-25, 2001, in Indiana; Ceramic Transactions, Volume 129.
Materials Interfaces
Many of the most important properties of materials in high-technology applications are strongly influenced or even controlled by the presence of solid interfaces. In this work, leading international authorities review the broad range of subjects in this field focusing on the atomic level properties of solid interfaces.
Physics And Applications Of Complex Plasmas
At the frontiers of physics and chemistry lies the new and rapidly emerging area of complex plasma systems. The study of complex plasma systems that contain colloid nano/microscopic particles is now actively pursued in a diverse range of scientific fields — from plasma and gas discharge physics, to astrophysics, materials science and engineering.This book highlights, in a systematic, insightful, and perceptive way, the fundamental physics and industrial applications of complex plasmas, with emphasis on the conditions relevant to laboratory gas discharges and industrial plasma reactors. It provides a specialized and comprehensive description of the most recent theoretical, experimental, and...
Interfaces in High-Tc Superconducting Systems
Because the new high-temperature superconductors cannot be grown as large single crystals, interfaces and junctions play an important role in their properties. The chapters in this book, each by leading researchers in the field, examine the state of our understanding of such interfaces. Chapters cover such topics as studies of YCBO films by transmission-electron, scanning-tunneling, and atomic-force microscopy; microstructure, interfacial interactions, and twin boundary structures in YCBO films; grain-boundary Josephson junctions; and overlayer formation.
