High Temperature Experiments in Chemistry and Materials Science

High Temperature Experiments in Chemistry and Materials Science
Author: Ketil Motzfeldt
Publisher: John Wiley & Sons
Total Pages: 364
Release: 2012-12-04
Genre: Science
ISBN: 1118457781
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Cutting edge high temperature materials include high temperature superconductors, solid oxide fuel cells, thermoelectric materials and ultrahigh temperature construction materials (including metals, cermets and ceramics) and have applications in key areas such as energy, transportation and space technologies. This book introduces the concepts which underpin research into these critical materials including thermodynamics, kinetics and various physical, chemical and modelling techniques with a focus on practical “how to” methods and covers: Introduction to High Temperature Research Basic Design of High Temperature Furnaces Temperature Measurement Radiation Pyrometry Refractory Materials in the Laboratory Vacuum in Theory and Practice The Design of Vacuum Furnaces and Thermobalances With highly detailed instrument illustrations and an emphasis on the control and measurement of the fundamental properties of temperature, pressure and mass, High Temperature Experiments in Chemistry and Materials Science provides a practical reference on high temperature measurements, for researchers, advanced students and those working in academic or industrial laboratories. Introduction to High Temperature Research Basic Design of High Temperature Furnaces Temperature Measurement Radiation Pyrometry Refractory Materials in the Laboratory Vacuum in Theory and Practice The Design of Vacuum Furnaces and Thermobalances

Materials Chemistry at High Temperatures

Materials Chemistry at High Temperatures
Author: John W. Hastie
Publisher: Springer Science & Business Media
Total Pages: 452
Release: 2013-12-01
Genre: Science
ISBN: 146120481X
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Conference Overview and the Role of Chemistry in High-Temperature Materials Science and Technology LEO BREWER Department of ChemistIy, University of California, and Materials and Chemical Sciences Division, Lawrence Berkeley Laboratory, 1 Cyclotron Road, Berkeley, CA 94720 I don't want to compete with the fascinating historic account that John Drowart gave us, but I would like to go through the history of high don't get the reaction that I get from temperature symposia. I hope I some of my classes when I say, "Remember when such-and-such hap pened during the War?" And I get this blank look, and one of the students will say, "I wasn't born until after the Korean War. " Neverthe less, during World War II, many people in the high-temperature field had their first initiation. But there was one handicap. Owing to security measures, they were not able to interact with one another. Following the War, it was recognized that the high-temperature field was going to expand to meet the demands for materials with unique properties. To meet the demands for new fabrication techniques, it was important to establish better communications among various people. High-tempera ture symposia were established at that time and have continued very frequently, and I'd like to point out why they are especially important for this field. One problem is that it is not easy to work at high temperatures.

Mechanisms of High Temperature Corrosion

Mechanisms of High Temperature Corrosion
Author: Pierre Sarrazin
Publisher: Trans Tech Publications Ltd
Total Pages: 335
Release: 2008-02-01
Genre: Technology & Engineering
ISBN: 3038132454
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The oxidation of metals is, by definition, a reaction between a gas and a solid which usually produces a solid reaction product. At first glance, this would therefore seem to be a very simple process but, in fact, it is considerably more complex. One would like to think that the reaction product, i.e., the scale that forms on the metal, acts as a physical barrier between the reactants, and that the reaction should thus cease once the barrier is established. We know that this is unfortunately not the case, because transport of matter through the scale allows the reaction to continue. We also know that, because of density-differences between the metal and its oxide, the scale may not be sufficiently complete in coverage or may not adhere to the substrate because of cracking, spalling and detachment (wrinkling). In some extreme cases, the scale may even be a liquid which simply drips from the surface, or it may volatilize at operational temperatures. The reaction between a gas and a metal is truly very complicated.

High-Temperature Levitated Materials

High-Temperature Levitated Materials
Author: David L. Price
Publisher: Cambridge University Press
Total Pages: 239
Release: 2010-05-06
Genre: Science
ISBN: 1139489496
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One of the major experimental difficulties in studying materials at extreme temperatures is unwanted contamination of the sample through contact with the container. This can be avoided by suspending the sample through levitation. This technique also makes metastable states of matter accessible, opening up new avenues of scientific enquiry, as well as possible new materials for technological applications. This book describes several methods of levitation, the most important being aerodynamic, electromagnetic and electrostatic. It summarizes the state-of-the-art of the measurement of structural, dynamic and physical properties with levitation techniques, the considerable progress made in this field in the past two decades, and prospects for the future. It also explores the concepts behind the experiments and associated theoretical ideas. Aimed at researchers in physics, physical chemistry and materials science, the book is also of interest to professionals working in high-temperature materials processing and the aerospace industry.

Interfacial Physical Chemistry of High-Temperature Melts

Interfacial Physical Chemistry of High-Temperature Melts
Author: Kusuhiro Mukai
Publisher: CRC Press
Total Pages: 120
Release: 2019-08-02
Genre: Science
ISBN: 042955589X
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This English translation of a well-known Japanese book covers interfacial physicochemistry in materials science, especially for iron- and steelmaking processes. Interfacial Physical Chemistry of High-Temperature Melts bridges the gap between the basics and applications of physicochemistry. The book begins with an overview of the fundamentals of interfacial physical chemistry and discusses surface tension, describing the derivation of important equations to guide readers to a deep understanding of the phenomenon. The book then goes on to introduce interfacial properties of high-temperature melts, especially the Marangoni effect, and discusses applications to materials processing at high temperature focusing on recent research results by the author and the co-workers. This book is aimed at researchers, graduate students, and professionals in materials processing. Video clips of in-situ observation including experiments under microgravity condition and x-ray observation are available for download on the publisher's website to allow for a deeper understanding.

Physics and Chemistry at Low Temperatures

Physics and Chemistry at Low Temperatures
Author: Leonid Khriachtchev
Publisher: CRC Press
Total Pages: 388
Release: 2019-05-08
Genre: Technology & Engineering
ISBN: 0429533780
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Tunneling reactions in chemistry are characterized by the low-temperature limit when the classical contribution is negligible. Many practical applications benefit from the lack of heat and have a deep physical basis. Interesting advantages of chemical synthesis at low temperatures have also been demonstrated. This book covers fundamental and practical aspects of the processes and experimental and theoretical methods used in the field. The chapters are written by leading scientists who have very strong experience in the selected topics, and many practical recommendations can be found in this book.