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,…mehr
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.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
One: Advances In Measurement Techniques.- Spectroscopic Probes.- Optical Second Hannonic Generation as a Probe of Properties and Processes at Surfaces and Interfaces.- Investigations of Materials at High Temperatures Using Raman Spectroscopy.- Raman Characterization of High Temperature Materials Using an Imaging Detector.- Spontaneous Raman Spectroscopy in Flames Containing High Concentrations of Silica Particles.- Composition Determination at High Temperatures by Laser Produced Plasma Analysis.- EXAFS, Matrix Isolation, and High Temperature Chemistry.- Diffractometry.- High Temperature X-Ray Diffraction and Landau Theory Investigations of Thermal Symmetry-Breaking Transitions: The W Point of Fm3m and the Structure of NbN1?x.- High Temperature X-Ray Diffractometry of Ti-Al Alloys.- High Temperature Neutron Diffraction Studies of YBa2?xSrxCU3O7??.- Atom Probe Field-Ion Microscopy Applications.- Physicochemical Methods.- Emissivities and Optical Constants of Electromagnetically Levitated Liquid Metals as Functions of Temperature and Wavelength.- Ion Equilibria: A New Technique for Measurement of Low O2 and Alkali Partial Pressures.- Thermal Desorption Kinetics of Water from Glass Powders Studied by Knudsen Effusion Mass Spectroscopy.- Twin-Chamber Knudsen Effusion Cell Mass Spectrometer for Alloy Thermodynamic Studies: II.- Two: Thermochemistry and Models.- Databases and Phase Equilibria Models.- Reference Books and Data Banks on the Thermodynamic Properties of Inorganic Substances-Plenary.- Thermodynamic Properties of the Alkaline Earth Hydroxides: A JANAF Case History.- Thermodynamic Modeling of Solution Phases and Phase Diagram Calculations-Plenary.- F*A*C*T Thermochemical Database for Calculations in Materials Chemistry at High Temperatures.- Application ofMTDATA to the Modeling of Multicomponent Equilibria.- Thermochemical Applications of Thermo-Calc.- Thermodynamic Modeling of High Temperature Melts and Phase Diagram Calculations.- A Stimulation Model to Predict Slag Composition in a Coal-Fired Boiler.- A Predictive Thermodynamic Model for Complex High Temperature Solution Phases XI.- Structural and Thermodynamic Evidence for the Survival of Zintl Ions Through the Melting Process: The Alkali-Lead Alloys.- Thermodynamic Properties of NiAs-Type Co1±xSb and Ni1±xSb.- The High Temperature Vaporization and Thermodynamics of the Titanium Oxides (XVIII): Temperature Coefficients and Oxygen Potentials over Ti10O19.- Phase Equilibria-Experimental and Applications.- Thermodynamics, Kinetics, and Interface Morphology of Reactions Between Metals and GaAs.- Recent Studies on Thermochemistry and Phase Equilibria in Alkali Metal Systems.- Basic Data Determinations.- Knudsen Effusion Mass Spectrometric Determination of Metal Hydroxide Stabilities.- High Temperature Mass Spectrometric Studies of the Thermodynamic Properties of Glass-Forming Systems.- Comparison of Thermodynamic Data Obtained by Knudsen Vaporization Magnetic and Quadrupole Mass Spectrometric Techniques.- Mechanistic Aspects of Metal Sulfate Decomposition Processes.- Author Index.
One: Advances In Measurement Techniques.- Spectroscopic Probes.- Optical Second Hannonic Generation as a Probe of Properties and Processes at Surfaces and Interfaces.- Investigations of Materials at High Temperatures Using Raman Spectroscopy.- Raman Characterization of High Temperature Materials Using an Imaging Detector.- Spontaneous Raman Spectroscopy in Flames Containing High Concentrations of Silica Particles.- Composition Determination at High Temperatures by Laser Produced Plasma Analysis.- EXAFS, Matrix Isolation, and High Temperature Chemistry.- Diffractometry.- High Temperature X-Ray Diffraction and Landau Theory Investigations of Thermal Symmetry-Breaking Transitions: The W Point of Fm3m and the Structure of NbN1?x.- High Temperature X-Ray Diffractometry of Ti-Al Alloys.- High Temperature Neutron Diffraction Studies of YBa2?xSrxCU3O7??.- Atom Probe Field-Ion Microscopy Applications.- Physicochemical Methods.- Emissivities and Optical Constants of Electromagnetically Levitated Liquid Metals as Functions of Temperature and Wavelength.- Ion Equilibria: A New Technique for Measurement of Low O2 and Alkali Partial Pressures.- Thermal Desorption Kinetics of Water from Glass Powders Studied by Knudsen Effusion Mass Spectroscopy.- Twin-Chamber Knudsen Effusion Cell Mass Spectrometer for Alloy Thermodynamic Studies: II.- Two: Thermochemistry and Models.- Databases and Phase Equilibria Models.- Reference Books and Data Banks on the Thermodynamic Properties of Inorganic Substances-Plenary.- Thermodynamic Properties of the Alkaline Earth Hydroxides: A JANAF Case History.- Thermodynamic Modeling of Solution Phases and Phase Diagram Calculations-Plenary.- F*A*C*T Thermochemical Database for Calculations in Materials Chemistry at High Temperatures.- Application ofMTDATA to the Modeling of Multicomponent Equilibria.- Thermochemical Applications of Thermo-Calc.- Thermodynamic Modeling of High Temperature Melts and Phase Diagram Calculations.- A Stimulation Model to Predict Slag Composition in a Coal-Fired Boiler.- A Predictive Thermodynamic Model for Complex High Temperature Solution Phases XI.- Structural and Thermodynamic Evidence for the Survival of Zintl Ions Through the Melting Process: The Alkali-Lead Alloys.- Thermodynamic Properties of NiAs-Type Co1±xSb and Ni1±xSb.- The High Temperature Vaporization and Thermodynamics of the Titanium Oxides (XVIII): Temperature Coefficients and Oxygen Potentials over Ti10O19.- Phase Equilibria-Experimental and Applications.- Thermodynamics, Kinetics, and Interface Morphology of Reactions Between Metals and GaAs.- Recent Studies on Thermochemistry and Phase Equilibria in Alkali Metal Systems.- Basic Data Determinations.- Knudsen Effusion Mass Spectrometric Determination of Metal Hydroxide Stabilities.- High Temperature Mass Spectrometric Studies of the Thermodynamic Properties of Glass-Forming Systems.- Comparison of Thermodynamic Data Obtained by Knudsen Vaporization Magnetic and Quadrupole Mass Spectrometric Techniques.- Mechanistic Aspects of Metal Sulfate Decomposition Processes.- Author Index.
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