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Concise Dictionary of Materials Science: Structure and Characterization of Polycrystalline Materials
12 October 2010

Concise Dictionary of Materials Science: Structure and Characterization of Polycrystalline Materials

Concise Dictionary of Materials Science: Structure and Characterization of Polycrystalline Materials

CRC Press 2003 | 288 | ISBN: 0849309700 | PDF | 3 Mb

A detailed knowledge of the terminology and its background is necessary for a fundamental understanding of the professional literature in the field of materials science. This sharply focused, authoritative lexicon affords the reader a coherent idea of microstructure formation and evolution. All the term definitions are supplied with explanations and cross-references, offering a consistent picture of microstructure in metallic and non-metallic polycrystalline materials. Written by an author with over thirty years of teaching and research experience, it fills the terminological gap between the textbooks on materials science and the professional literature. Concise Dictionary of Materials Science: Structure and Characterization of Polycrystalline Materials contains more than 1400 terms commonly used in modern literature, research, and practice. Throughout the dictionary, the emphasis is on lattice defects and their role in diffusion, plastic deformation and phase transitions, as well as on the granular structure and its formation and changes in the course of phase transitions, recrystallization, and grain growth. In addition, all the entries from the dictionary are presented in the English-German/German-English Glossary, providing in one volume quick access to the key concepts and terms in both of the languages.Highlighting structure description, formation, and characterization, Concise Dictionary of Materials Science is a very useful reference for students in materials science and engineering, for researchers, engineers, and technologists in metalworking, microelectronic, and ceramic industries, as well as for readers without a technical background. ...
Dynamic Behavior of Materials, Volume 1
3 March 2012

Dynamic Behavior of Materials, Volume 1

Dynamic Behavior of Materials, Volume 1

2011 | 492 | ISBN: 1441982272 | PDF | 43 Mb

Dynamic Behavior of Materials, Volume 1: Proceedings of the 2010 Annual Conference on Experimental and Applied Mechanics, the first volume of six from the Conference, brings together 71 contributions to this important area of research and engineering. The collection presents early findings and case studies on fundamental and applied aspects of Materials Science, including papers on Composite Materials, Dynamic Failure and Fracture, Dynamic Materials Response, Novel Testing Techniques, Low Impedance Materials, Metallic Materials, Response of Brittle Materials, Time Dependent Materials, High Strain Rate Testing of Biological and Soft Materials, Shock and High Pressure Response, Energetic Materials, Optical Techniques for Imaging High Strain Rate Material Response, and Modeling of Dynamic Response....
Nanowires and Nanobelts: Materials, Properties and Devices: Volume 2: Nanowires and Nanobelts of Functional Materials
23 July 2010

Nanowires and Nanobelts: Materials, Properties and Devices: Volume 2: Nanowires and Nanobelts of Functional Materials
Nanowires and Nanobelts: Materials, Properties and Devices: Volume 2: Nanowires and Nanobelts of Functional Materials
Springer 2005 | 300 | ISBN: 038728706X | PDF | 21
Nanowires, nanobelts, nanoribbons, nanorods ..., are a new class of quasi-one-dimensional materials that have been attracting a great research interest in the last few years. These non-carbon based materials have been demonstrated to exhibit superior electrical, optical, mechanical and thermal properties, and can be used as fundamental building blocks for nano-scale science and technology, ranging from chemical and biological sensors, field effect transistors to logic circuits. Nanocircuits built using semiconductor nanowires demonstrated were declared a "breakthrough in science" by Science magazine in 2001. Nature magazine recently published a report claiming that "Nanowires, nanorods, nanowhiskers, it does not matter what you call them, they are the hottest property in nanotechnology" (Nature, 419 (2002) 553). There is no doubt that nanowire based quasi-one-dimensional materials will the new focal point of research in the next decades. This two volume reference, Nanowires and Nanobelts: Materials, Properties and Devices, provides a comprehensive introduction to the field and reviews the current state of the research. ...
Computational Materials Science: The Simulation of Materials Microstructures and Properties
16 June 2011

Computational Materials Science: The Simulation of Materials Microstructures and Properties
Computational Materials Science: The Simulation of Materials Microstructures and Properties
425 pages | Aug 31 2010 |ISBN:3527295410 | PDF | 5.5 Mb

Computational Materials Science presents the most important approaches in this new interdisciplinary field of materials science and engineering. The reader will learn to assess which numerical method is appropriate for performing simulations at the various microstructural levels and how they can be coupled. This book addresses graduate students and professionals in materials science and engineering as well as materials-oriented physicists and mechanical engineers.
Essentials of Materials Science & Engineering - SI Version
16 October 2012

Essentials of Materials Science & Engineering - SI Version
Essentials of Materials Science & Engineering - SI Version
English | 2009 | ISBN: 0495438502 | 624 pages | PDF | 100 MB

This text provides students with a solid understanding of the relationship between the structure, processing, and properties of materials. Authors Donald Askeland and Pradeep Fulay teach the fundamental concepts of atomic structure and materials behaviors and clearly link them to the "materials" issues that students will have to deal with when they enter the industry or graduate school (e.g. design of structures, selection of materials, or materials failures). While presenting fundamental concepts and linking them to practical applications, the authors emphasize the necessary basics without overwhelming the students with too much of the underlying chemistry or physics. The book covers fundamentals in an integrated approach that emphasizes applications of new technologies that engineered materials enable. New and interdisciplinary developments in materials field such as nanomaterials, smart materials, micro-electro-mechanical (MEMS) systems, and biomaterials are also discussed.
Advances in Bio-Mechanical Systems and Materials (Advanced Structured Materials)
20 October 2013

Advances in Bio-Mechanical Systems and Materials (Advanced Structured Materials)
Advances in Bio-Mechanical Systems and Materials (Advanced Structured Materials) by Andreas Ochsner and Holm Altenbach
August 12, 2013 | ISBN: 3319004786 | 200 pages | PDF | 8,3 MB

To characterize and design such systems, a multi-disciplinary approach is required which involves the classical disciplines of mechanical/materials engineering and biology and medicine. The challenge in such an approach is that views, concepts or even language are sometimes different from discipline to discipline and the interaction and communication of the scientists must be first developed and adjusted. Within the context of materials' science, the book covers the interaction of materials with mechanical systems, their description as a mechanical system or their mechanical properties.
This monograph presents the latest results related to bio-mechanical systems and materials. The bio-mechanical systems with which his book is concerned are prostheses, implants, medical operation robots and muscular re-training systems.
Nanostructured Materials for Electrochemical Energy Production and Storage
21 August 2010

Nanostructured Materials for Electrochemical Energy Production and Storage
Nanostructured Materials for Electrochemical Energy Production and Storage
Springer 2008 | 250 | ISBN: 0387493220 | PDF | 4 Mb
The key problem facing new energy conversion and storage technologies remains device efficiency. Designs based on nanostructured materials can yield improved performance in devices employing electrochemical reactions and heterogeneous catalysis, such as fuel and solar cells, batteries, etc. Nanoscale structures dramatically alter the surface reaction rates and electrical transport throughout the material, causing a dramatic improvement in energy storage, conversion, and generation. This book describes properties of nanostructured materials that can be the basis of improved performance in a wide range of alternative energy devices. Fundamental concepts of nanostructured materials such as nanocrystals synthesis and properties, thermodynamics and defect chemistry, and interfacial and physical electrochemistry are presented as are the impact and application of nanoscale materials in specific alternative energy devices. These materials and devices promise not only the development of a wide range of new technologies, but also the potential for a more sustainable energy future. Nanostructured Materials for Electrochemical Energy Production and Storage is an authoritative and essential reference from world-renowned research groups for scientists and engineers in the fields of materials science and electrochemistry. ...
Imperial College Inaugural Lectures in Materials Science and Materials Engineering
14 November 2010

Imperial College Inaugural Lectures in Materials Science and Materials Engineering

Imperial College Inaugural Lectures in Materials Science and Materials Engineering

World Scientific Publishing Company 2001 | 150 | ISBN: 1860941060 | PDF | 4 Mb

DJVUThis volume contains six important articles in materials science and materials engineering, based upon inaugural lectures given by professors at Imperial College, London. Each author deals with an area of work in which he has been involved over a period of years, and gives a personal account, partly historical, of the main features and importance of his subject. The topics covered include: the strength and deformation of metals, the brittle behaviour of ceramics, electrical materials, biomaterials, friction and lubrication, and modern engineering adhesives. ...
Materials Enabled Designs: The Materials Engineering Perspective to Product Design and Manufacturing, 1st Edition
10 January 2013

Materials Enabled Designs: The Materials Engineering Perspective to Product Design and Manufacturing, 1st Edition

Materials Enabled Designs: The Materials Engineering Perspective to Product Design and Manufacturing
by Michael Pfeifer

English | 2009 | ISBN: 0750682876 | 320 pages | PDF | 15 MB

There are books aplenty on materials selection criteria for engineering design. Most cover the physical and mechanical properties of specific materials, but few offer much in the way of total product design criteria. This innovative new text/reference will give the "Big picture" view of how materials should be selected-not only for a desired function but also for their ultimate performance, durability, maintenance, replacement costs, and so on. Even such factors as how a material behaves when packaged, shipped, and stored will be taken into consideration. For without that knowledge, a design engineer is often in the dark as to how a particular material used in particular product or process is going to behave over time, how costly it will be, and, ultimately, how successful it will be at doing what is supposed to do. This book delivers that knowledge.
Heritage Microbiology and Science: Microbes, Monuments and Maritime Materials (Special Publication) [Hardcover]
27 November 2011

Heritage Microbiology and Science: Microbes, Monuments and Maritime Materials (Special Publication) [Hardcover]

Heritage Microbiology and Science: Microbes, Monuments and Maritime Materials (Special Publication) [Hardcover]

Heritage Science is emerging as a discipline that brings together chemists, physicists, microbiologists, conservation scientists, archaeologists and conservators. Its scope, precise boundaries and the interfaces between its component disciplines may be in a state of flux but, above all, its interdisciplinary nature offers understanding of the causes, control and protection of heritage from ever-present environmental challenges. In particular, the activities of microbes play a central part in shaping the natural world of our planet but this awesome power constitutes a serious threat to the integrity of our most precious art, heritage artefacts, monuments and cultural treasures. Heritage artefacts that have been recovered from water, or that exist near the sea in maritime conditions, pose special conservation problems due in main to the combined effect of microbial activities and physical/chemical assaults that the environment can offer. This book is a result of the invited and updated papers from HMS2005: Microbes, Monuments and Maritime Materials and forms a comprehensive volume that addresses key topical areas of heritage science and discusses the threats to a wide range of heritage materials and monuments by biological and chemical agents of decay. Key features of the book include: " Up-to-date summaries on the conservation of internationally-important artefacts and monuments " Clear outline of molecular techniques to identify microbes in environmental heritage samples " Wide range of case studies covering wood, stone, cave and cave paintings " Contributions presented as fully referenced research publications giving useful technical details and identification of areas for future study " Informs conservators about the threats from microbes to a range of materials " Extensive range of case studies of important world heritage artefacts and monuments as well as an overview of in situ preservation of historic ships " Provides background knowledge on the use and application of modern analytical techniques in conservation " Contains detailed information on molecular and synchrotron techniques to assist with identifying biological and chemical threats to heritage artefacts and monuments The book also provides up-to-date information on subjects covering the component field of heritage microbiology, molecular and chemical analytical techniques, and the mechanisms of degradation and deterioration of historic ships and buildings. The book details state-of-the-art techniques for the study of large and small heritage objects, and their conservation. Techniques cover the use of GIS image processing, molecular biological analysis of environmental samples including FISH, electrophoresis to remove corrosive ions and synchrotron radiation to detect chemicals present in artefacts. Several authors have developed their methods through involvement in international collaborative projects such as BIOBRUSH, BACPOLES and Save the Vasa. Extensive emphasis is placed on case studies and there is a valuable section on historic ships covering the preservation of HMS Victory, ss Great Britain, Vasa and the Mary Rose. This book provides an indispensable guide and reference source for those working in all areas of historical conservation, biodeterioration, microbiology and materials science....