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Metals and alloys rely for their application at high temperature on the formation and retention of oxide scales, which act as a barrier between the metallic substrate and the reactive species in the environment such as 0, S, N, C, Cl, etc. This protection concept requires that the oxide grows slowly, develops a dense, uniform layer, is well adherent, has sufficient ductility to accom modate plastic deformation of the substrate and is resistant to thermal cycling. For many years it has been known that small concentrations of certain "active elements" such as Y and the rare earths, as well as carbon and sulphur, can exercise a significant influence upon the oxidation! corrosion behaviour of high temperature metals and alloys. An increasing number of experimental studies on this topic have been published recently. However no generally accepted understanding with regard to the detailed mechanisms and the way in which alloy composition and structure, temperature and environmental conditions, etc., are interacting has yet been achieved, although many - often controversial - theories and ideas have been presented. It therefore seemed to be an appropriate time to bring together a group of experts to review and evaluate the current state-of-the-art and to discuss various aspects of this important topic.
Metals and alloys rely for their application at high temperature on the formation and retention of oxide scales, which act as a barrier between the metallic substrate and the reactive species in the environment such as 0, S, N, C, Cl, etc. This protection concept requires that the oxide grows slowly, develops a dense, uniform layer, is well adherent, has sufficient ductility to accom modate plastic deformation of the substrate and is resistant to thermal cycling. For many years it has been known that small concentrations of certain "active elements" such as Y and the rare earths, as well as carbon and sulphur, can exercise a significant influence upon the oxidation! corrosion behaviour of high temperature metals and alloys. An increasing number of experimental studies on this topic have been published recently. However no generally accepted understanding with regard to the detailed mechanisms and the way in which alloy composition and structure, temperature and environmental conditions, etc., are interacting has yet been achieved, although many - often controversial - theories and ideas have been presented. It therefore seemed to be an appropriate time to bring together a group of experts to review and evaluate the current state-of-the-art and to discuss various aspects of this important topic.
Microscopy of Oxidation: the proceedings of the Second International Conference Held at Selwyn College, University of Cambridge, on 29-31 1993.
High-temperature Solid Oxide Fuel Cells, Second Edition, explores the growing interest in fuel cells as a sustainable source of energy. The text brings the topic of green energy front and center, illustrating the need for new books that provide comprehensive and practical information on specific types of fuel cells and their applications. This landmark volume on solid oxide fuel cells contains contributions from experts of international repute, and provides a single source of the latest knowledge on this topic. - A single source for all the latest information on solid oxide fuel cells and their applications - Illustrates the need for new, more comprehensive books and study on the topic - Explores the growing interest in fuel cells as viable, sustainable sources of energy
Ceramics, Powders, Corrosion and Advanced Processing covers the proceedings of the Third International Union of Materials Research Societies (IUMRS) International Conference on Advanced Materials (ICAM), held in Sunshine City, Ikebukuro, Tokyo, Japan from August 31 to September 4, 1993. The said conference discusses the procedures for advanced materials. The book is divided into four parts. Part 1 includes topics such as preparation of powders from different compounds and substances and the application of different methods and techniques. Part 2 talks about high temperature oxidations and corrosions; degradation resistance of thermal barrier coatings; the environmental effects on corrosion behavior of stainless steel; effect of gas composition and pressure on high temperature corrosion; and other related concepts. Part 3 includes topics such as fatigue-crack behavior; the factors that lead to it; fracture resistance and how it is increased; and the application of ceramics to heat-resistant engines and turbines. Part 4 covers the advanced processing of ceramics, and Part 5 deals with the fabrication of silicon-based ceramics. The text is highly recommended for chemists and engineers in the field of ceramics who would like to know more about the advances in its studies and research.
The role of energy in the modern world goes beyond mere technology and economics to influence welfare, the environment, the quality of life and, in broad terms, civilization itself. Since the industrial revolution, energy conservation technology has been at the forefront of the innovation required to satisfy the needs of mankind and, more than any other, this technology has always depended on the performance of the materials used. In this, the report of the Fifth Li??ge Conference devoted to a review of the work of the European Materials Collaborative Programmes, the results of the programmes are presented along the following technology oriented themes: steam power plant gas turbines diesel engines advanced combustion perspectives. The book thus presents one of the most up to date references available anywhere on materials technologies in energy conversion from fossil fuels and materials for high efficiency, low emission systems.
This invaluable book reviews the state of the art of high temperature related problems pertaining to their utility, microstructure, mechanical properties, actual behavior in different environments, their protection by various kinds of coatings at high temperatures and a new concept of nanomaterials at high temperatures.The book begins with fundamentals of oxidation and corrosion. Various concepts relating to the modification or deterioration of mechanical properties when material is exposed to an aggressive environment compared to an inert environment or vacuum are also covered. Other chapters highlight the behavior of various advanced materials to high temperature conditions, an important high temperature effect called Active Element Effect, and many high temperature coatings and their behavior.Written by world-renowned authors in their own field, this book will be useful for professionals and academics in materials science and nanoscience.