As is often the case, the preface is the last task to be finished during the preparation of a large volume such as you are now holding. The first task, obtaining approval for a symposium on the industrial applications, now seems a long time ago. The idea orginated with John Stevens, probably in 1982, from his observation of papers dealing with industrial applications of the Mossbauer effect appearing in the Mossbauer Effect Reference and Data Journal. His initial suggestion for a symposium entitled "Industrial Applications of the Mossbauer Effect" to be held at a national meeting of the…mehr
As is often the case, the preface is the last task to be finished during the preparation of a large volume such as you are now holding. The first task, obtaining approval for a symposium on the industrial applications, now seems a long time ago. The idea orginated with John Stevens, probably in 1982, from his observation of papers dealing with industrial applications of the Mossbauer effect appearing in the Mossbauer Effect Reference and Data Journal. His initial suggestion for a symposium entitled "Industrial Applications of the Mossbauer Effect" to be held at a national meeting of the American Chemical Society eventually led to the symposium at the International Chemical Congress of Pacific Basin Societies which met in Honolulu, Hawaii in December 1984. This volume is the result of the symposium at the above mentioned Congress, but is not actually the 'proceedings' of the symposium because this volume does not contain all of the over one hundred Mossbauer effect papers that were pre sented at the symposium. Rather it contains a selection of papers that the or ganizing committee for the symposium deemed most appropriate for a volume devoted to industrial applications of the Mossbauer effect. The final volume also contains six chapters that were not a part of the symposium but which are closely related to the topic. There is another difference from many proceedings.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Section 1 Introduction.- 1. The Dozen Uniquenesses of the Mössbauer Effect.- 2. Metal Research of Industrial Significance by Mössbauer Spectroscopy.- Section 2 Techniques and General Applications.- 3. Mössbauer Spectroscopy in Physical Metallurgy.- 4. Industrial Applications of Mössbauer Spectroscopy to Microcrystals.- 5. Conversion Electron Mössbauer Scattering. A Technique for Structural Microanalysis of Thin Films and Subsurface Regions in Materials.- 6. Surface Phase Analysis by Depth-Selective Conversion Electron Mössbauer Spectroscopy.- 7. Rapid Mössbauer-Based Methods for Applications in the Coal and Steel Industries.- Section 3 Applications to Steel and Steel Alloys.- 8. Mössbauer Spectroscopy in Steel Industry.- 9. Mössbauer Investigation of High-Manganese Steels.- 10. The Application of Mössbauer Spectroscopy to Iron-Aluminum Alloys and Industrial Aluminum Samples.- 11. Mössbauer Investigation of AlFe and AlFeSi Phases in Specially Produced Aluminum Alloys and in Industrial Aluminum.- 12. Sulfidation-Induced Changes in Iron-Aluminum and Iron-Silicon Alloys.- 13. Hyperfine Fields in Fe-Ni-X Alloys and Their Applications to a Study of Tempering of 9Ni Steel.- 14. Surface Characterization of Nitrogen Implanted Carbon- and Alloy-Steels: A Review and Recent Results.- 15. Studies of the Phosphatization of Steel and Its Corrosion Products.- 16. Conversion Electron Mössbauer Studies of the Corrosion Products Formed on the Steel Surface in Atmospheres Containing HCl, H2S, and SO2.- Section 4 Applications to Amorphous Alloys and Glasses.- 17. Transition Metal Substitution in Fe75Tm5B20 Amorphous Alloys. Effect on Structure, Thermal Stability, and Structural Relaxation.- 18. Mössbauer Investigations of Magnetic Interactions and Crystallization Behavior of the Amorphous Alloy Fe72Ni4Mo6B16Si2.- 19. The Fitting Method for Mössbauer Spectra of Amorphous Alloys and an Investigation of Their Properties and Structures.- 20. Mössbauer Effect Study of the Cluster Distribution in the Spin Glass ?-Me0.35V2O5 (Me=Fe, AI).- 21. Application of Mössbauer Effect on the Crystallization of Several Glasses.- 22. Application of Iron-57 Mössbauer Spectroscopy to the Characterization of Silicate Glasses Used for High Temperature Incinerated Low-Level Radioactive Waste Products.- Section 5 Applications to Coal, Minerals, and Mineral Processing.- 23. Mössbauer Analysis of Q-Basic Oxygen Process Slags.- 24. Slag Attack of Firebrick in a Tin Smelting Furnace.- 25. Mössbauer Effect Study of Decreptation Phenomena in Iron Ores.- 26. Coal Treatment and Desulfurization.- 27. Iron Phases in Brown Coal Ashes.- 28. Mössbauer Spectroscopy as a Tool for Studying Hydrometallurgical Treatments of Copper-Iron-Sulfides.- 29. Mössbauer Effect Study of the Thermal Reactions of Phosphate Minerals from Christmas Island Fertilizer Rocks.- 30. Mössbauer Studies of Thermal Reaction Mechanisms in Hydrous Iron Layer Silicates.- 31. A Study of the Initially-Formed Hydrolysis Species and Intermediate Polymers and Their Role in Determining the Product Iron Oxides Formed in the Weathering of Iron.- 32. The Oxidation of Hydroxycarbonate Green Rusts.- 33. Metal Adsorption by Activated Carbon.- Section 6 Applications to Catalytic Materials.- 34. Mössbauer Spectroscopy of Iron and Iron Alloy Fischer-Tropsch Catalysts.- 35. Mössbauer Effect Characterization of Silica Supported Rhodium-Iron Catalysts.- 36. The Application of Mössbauer Spectroscopy to Metallic, Bimetallic, and Mixed Metal Oxide Catalysts.- 37. Influence of Promoters on the Physical Properties of Iron Zeolite Catalysts.- 38. Application of Mössbauer Emission Spectroscopy to the Study of Cobalt-Molybdenum Hydrodesulfurization Catalysts.- 39. Applications of the Mössbauer Effect in Electrolysis.- Section 7 Miscellaneous Applications.- 40. Role of Tin Complexes in Bonding Silver to Glass: Mössbauer Studies.- 41. Use of Mössbauer Spectroscopy in the Study of IV VI Semiconductors.- 42. The Möss
Section 1 Introduction.- 1. The Dozen Uniquenesses of the Mössbauer Effect.- 2. Metal Research of Industrial Significance by Mössbauer Spectroscopy.- Section 2 Techniques and General Applications.- 3. Mössbauer Spectroscopy in Physical Metallurgy.- 4. Industrial Applications of Mössbauer Spectroscopy to Microcrystals.- 5. Conversion Electron Mössbauer Scattering. A Technique for Structural Microanalysis of Thin Films and Subsurface Regions in Materials.- 6. Surface Phase Analysis by Depth-Selective Conversion Electron Mössbauer Spectroscopy.- 7. Rapid Mössbauer-Based Methods for Applications in the Coal and Steel Industries.- Section 3 Applications to Steel and Steel Alloys.- 8. Mössbauer Spectroscopy in Steel Industry.- 9. Mössbauer Investigation of High-Manganese Steels.- 10. The Application of Mössbauer Spectroscopy to Iron-Aluminum Alloys and Industrial Aluminum Samples.- 11. Mössbauer Investigation of AlFe and AlFeSi Phases in Specially Produced Aluminum Alloys and in Industrial Aluminum.- 12. Sulfidation-Induced Changes in Iron-Aluminum and Iron-Silicon Alloys.- 13. Hyperfine Fields in Fe-Ni-X Alloys and Their Applications to a Study of Tempering of 9Ni Steel.- 14. Surface Characterization of Nitrogen Implanted Carbon- and Alloy-Steels: A Review and Recent Results.- 15. Studies of the Phosphatization of Steel and Its Corrosion Products.- 16. Conversion Electron Mössbauer Studies of the Corrosion Products Formed on the Steel Surface in Atmospheres Containing HCl, H2S, and SO2.- Section 4 Applications to Amorphous Alloys and Glasses.- 17. Transition Metal Substitution in Fe75Tm5B20 Amorphous Alloys. Effect on Structure, Thermal Stability, and Structural Relaxation.- 18. Mössbauer Investigations of Magnetic Interactions and Crystallization Behavior of the Amorphous Alloy Fe72Ni4Mo6B16Si2.- 19. The Fitting Method for Mössbauer Spectra of Amorphous Alloys and an Investigation of Their Properties and Structures.- 20. Mössbauer Effect Study of the Cluster Distribution in the Spin Glass ?-Me0.35V2O5 (Me=Fe, AI).- 21. Application of Mössbauer Effect on the Crystallization of Several Glasses.- 22. Application of Iron-57 Mössbauer Spectroscopy to the Characterization of Silicate Glasses Used for High Temperature Incinerated Low-Level Radioactive Waste Products.- Section 5 Applications to Coal, Minerals, and Mineral Processing.- 23. Mössbauer Analysis of Q-Basic Oxygen Process Slags.- 24. Slag Attack of Firebrick in a Tin Smelting Furnace.- 25. Mössbauer Effect Study of Decreptation Phenomena in Iron Ores.- 26. Coal Treatment and Desulfurization.- 27. Iron Phases in Brown Coal Ashes.- 28. Mössbauer Spectroscopy as a Tool for Studying Hydrometallurgical Treatments of Copper-Iron-Sulfides.- 29. Mössbauer Effect Study of the Thermal Reactions of Phosphate Minerals from Christmas Island Fertilizer Rocks.- 30. Mössbauer Studies of Thermal Reaction Mechanisms in Hydrous Iron Layer Silicates.- 31. A Study of the Initially-Formed Hydrolysis Species and Intermediate Polymers and Their Role in Determining the Product Iron Oxides Formed in the Weathering of Iron.- 32. The Oxidation of Hydroxycarbonate Green Rusts.- 33. Metal Adsorption by Activated Carbon.- Section 6 Applications to Catalytic Materials.- 34. Mössbauer Spectroscopy of Iron and Iron Alloy Fischer-Tropsch Catalysts.- 35. Mössbauer Effect Characterization of Silica Supported Rhodium-Iron Catalysts.- 36. The Application of Mössbauer Spectroscopy to Metallic, Bimetallic, and Mixed Metal Oxide Catalysts.- 37. Influence of Promoters on the Physical Properties of Iron Zeolite Catalysts.- 38. Application of Mössbauer Emission Spectroscopy to the Study of Cobalt-Molybdenum Hydrodesulfurization Catalysts.- 39. Applications of the Mössbauer Effect in Electrolysis.- Section 7 Miscellaneous Applications.- 40. Role of Tin Complexes in Bonding Silver to Glass: Mössbauer Studies.- 41. Use of Mössbauer Spectroscopy in the Study of IV VI Semiconductors.- 42. The Möss
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