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Surfaces & Interfaces

• Advances in Materials Processing Technologies
  Manufacturing can be considered to be the most wide-ranging, interdisciplinary and sometimes-controversial branch of Engineering. It is even sometimes difficult to define it concisely, but everybody recognises its contributions.
• High-Temperature Oxidation and Corrosion 2005
  This volume contains 80 selected peer-reviewed papers, divided into the sections: Fundamentals of High-Temperature Oxidation and Corrosion, Steam Oxidation and Influence of Hydrogen, Protective Coatings and Surface Treatments, Mechanical and Chemical Aspects of Scale Adhesion, Corrosion in Incinerators and Metal Dusting and Oxidation of Ceramics and Intermetallics.
• Advanced Materials Forum III
  The aim of this book is to provide the reader with the latest advanced research results on, and an improved understanding of, various aspects of the processing and characterization of materials.
• Advanced Structural Materials II
  This collection comprises invited and contributed papers which were presented at the Advanced Structural Materials Symposium held in Cancún, México during the Annual Conference of the Mexican Academy of Materials Science.
• Solidification and Gravity IV
  This collection of papers provides the most up-to-date information available for researchers and engineers who are interested in any aspect of the field of solidification processes. Herein, theoretical analyses are presented, as well as studies of the technological problems which are associated with solidification in various gravitational environments. The topics covered range from fundamental aspects and modelling, to practical engineering applications.
• Residual Stresses VII, ICRS7
  The field of Residual Stresses is surprisingly large, and also highly interdisciplinary in nature, both with regard to its applications and to its scientific and technological fundamentals.
• Magnesium – Science, Technology and Applications
  Magnesium, with its very rich reserves within the Earth, is an important engineering material, but has not yet been fully developed and utilized. Given its low density, magnesium has a higher specific strength and stiffness than many other engineering materials: including aluminum, steel and polymer-based composites. Magnesium also offers other attractive properties: such as a high damping capacity, electromagnetic shielding, dimensional stability, and good machinability and recyclability. As a relatively new structural material, magnesium and its alloys have demonstrated a significant potential for applications in many industries: including automobile, 3C (computer, communication and consumer) products, transportation, power-tools/equipment and new energy sources.
• Silicon Carbide and Related Materials 2004
  Silicon Carbide (SiC), Gallium Nitride (GaN) and Diamond are examples of wide-bandgap semiconductors having chemical, electrical and optical properties which make them very attractive for the fabrication of high-power and high-frequency electronic devices, as well as of light-emitters and sensors which have to operate under harsh conditions.
• Recrystallization and Grain Growth
  Recrystallization and grain growth, together with phase transformations such as precipitation, are the fundamental processes of microstructural evolution which take place during the thermomechanical processing of engineering materials. They are of major scientific interest and are of great importance in a wide range of industrial applications.
• High Temperature Corrosion and Protection of Materials 6
  The major concern of this book is high-temperature corrosion; a form of surface disintegration that leads to high running costs, as well as to environmental and/or security problems.