Verfügbarkeit: High temperature oxidation and corrosion of metals

High temperature oxidation and corrosion of metals:

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Bibliographische Detailangaben
1. Verfasser:	Young, David John (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier 2008
Ausgabe:	1. ed.
Schriftenreihe:	Elsevier corrosion series 1
Schlagworte:	Alloys Metallic oxides Metals > Effect of high temperatures on Oxidation Metall Korrosion Metalloxide Hochtemperatur
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index. - Formerly CIP
Beschreibung:	xvii, 574 p. zahlr. Ill. und graph. Darst.
ISBN:	9780080445878

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Datensatz im Suchindex

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adam_text	Preface ix Glossary of Symbols xiii Abbreviations and Acronyms xvii 1. The Nature of High Temperature Oxidation 1 1.1. Metal Loss Due to the Scaling of Steel 1 1.2. Heating Elements 4 1.3. Protecting Turbine Engine Components 5 1.4. Hydrocarbon Cracking Furnaces 9 1.5. Prediction and Measurement 10 1.6. Rate Equations 15 1.7. Reaction Morphology: Specimen Examination 22 1.8. Summary 26 References 26 2. Enabling Theory 29 2.1. Chemical Thermodynamics 30 2.2. Chemical Equilibria Between Solids and Gases 34 2.3. Alloys and Solid Solutions 42 2.4. Chemical Equilibria Between Alloys and Gases 46 2.5. Thermodynamics of Diffusion 51 2.6. Absolute Rate Theory Applied to Lattice Particle Diffusion 55 2.7. Diffusion in Alloys 58 2.8. Diffusion Couples and the Measurement of Diffusion Coefficients 63 2.9. Interfacial Processes and Gas Phase Mass Transfer 66 2.10. Mechanical Effects: Stresses in Oxide Scales 71 References 76 Further Reading 77 3. Oxidation of Pure Metals 81 3.1. Experimental Findings 82 3.2. Use of Phase Diagrams 84 3.3. Point Defects and Non-Stoichiometry in Ionic Oxides 85 3.4. Lattice Species and Structural Units in Ionic Oxides 89 3.5. Gibbs-Duhem Equation for Defective Solid Oxides 91 3.6. Lattice Diffusion and Oxide Scaling: Wagner s Model 93 3.7. Validation of Wagner s Model 96 vi Contents 3.8. Impurity Effects on Lattice Diffusion 113 3.9. Microstructural Effects 115 3.10. Reactions Not Controlled by Solid-State Diffusion 127 3.11. The Value of Thermodynamic and Kinetic Analysis 133 References 135 4. Mixed Gas Corrosion of Pure Metals 139 4.1. Introduction 139 4.2. Selected Experimental Findings 140 4.3. Phase Diagrams and Diffusion Paths 147 4.4. Scale-Gas Interactions 154 4.5. Transport Processes in Mixed Scales 168 4.6. Predicting the Outcome of Mixed Gas Reactions 175 References 181 5. Oxidation of Alloys I: Single Phase Scales 185 5.1. Introduction 185 5.2. Selected Experimental Results 187 5.3. Phase Diagrams and Diffusion Paths 193 5.4. Selective Oxidation of One Alloy Component 196 5.5. Selective Oxidation of One Alloy Connponent Under Non-Steady-State Conditions 202 5.6. Solid Solution Oxide Scales 206 5.7. Transient Oxidation 216 5.8. Microstructural Changes in Subsurface Alloy Regions 226 5.9. Breakdown of Steady-State Scale 237 5.10. Other Factors Affecting Scale Growth 241 References 243 6. Oxidation of Alloys II: Internal Oxidation 247 6.1. Introduction 247 6.2. Selected Experimental Results 248 6.3. Internal Oxidation Kinetics in the Absence of External Scaling 255 6.4. Experimental Verification of Diffusion Model 260 6.5. Surface Diffusion Effects in the Precipitation Zone 267 6.6. Internal Precipitates of Low Stability 273 6.7. Precipitate Nucleation and Growth 278 6.8. Cellular Precipitation Morphologies 284 6.9. Multiple Internal Precipitates 290 6.10. Solute Interactions in the Precipitation Zone 299 6.11. Transition from Internal to External Oxidation 301 6.12. Internal Oxidation Beneath a Corroding Alloy Surface 305 6.13. Volume Expansion in the Internal Precipitation Zone 306 6.14. Success of Internal Oxidation Theory 311 References 312 Contents VM 7. Alloy Oxidation III: Multiphase Scales 315 7.1. Introduction 315 7.2. Binary Alumina Formers 316 7.3. Binary Chromia Formers 326 7.4. Ternary Alloy Oxidation 330 7.5. Scale Spallation 341 7.6. Effects of Minor Alloying Additions 347 7.7. Effects of Secondary Oxidants 352 7.8. Status of Multiphase Scale Growth Theory 355 References 356 8. Corrosion by Sulfur 361 8.1. Introduction 361 8.2. Sulfidation of Pure Metals 362 8.3. Alloying for Sulfidation Protection 367 8.4. Sulfidation in H2/H2S 378 8.5. Effects of Temperature and Sulfur Partial Pressure 381 8.6. The Role of Oxygen 382 8.7. Internal Sulfidation 383 8.8. Hot Corrosion 383 8.9. Achieving Sulfidation Resistance 391 References 392 9. Corrosion by Carbon 397 9.1. Introduction 398 9.2. Gaseous Carbon Activities 400 9.3. Carburization 402 9.4. Internal Carburization of Model Alloys 403 9.5. Internal Carburization of Heat Resisting Alloys 415 9.6. Metal Dusting of Iron and Ferritic Alloys 421 9.7. Dusting of Nickel and Austenitic Alloys 435 9.8. Protection by Oxide Scaling 444 9.9. Controlling Carbon Corrosion 449 References 450 10. Effects of Water Vapour on Oxidation 455 10.1. Introduction 455 10.2. Volatile Metal Hydroxide Formation 458 10.3. Scale-Gas Interfacial Processes 468 10.4. Scale Transport Properties 472 10.5. Water Vapour Effects on Alumina Growth 488 10.6. Void Development in Growing Scales 489 10.7. Understanding and Controlling Water Vapour Effects 490 References 492 VIU Contents 11. Cyclic Oxidation 497 11.1. Introduction 497 11.2. Alloy Depletion and Scale Rehealing 502 11.3. Spallation Models 506 11.4. Combination of Spalling and Depletion Models 514 11.5. Effects of Experimental Variables 517 11.6. Describing and Predicting Cyclic Oxidation 527 References 530 12. Alloy Design 533 12.1. Introduction 533 12.2. Alloy Design for Resistance to Oxygen 534 12.3. Design Against Oxide Scale Spallation 537 12.4. Design for Resistance to Other Corrodents and Mixed Gases 538 12.5. Future Research 539 12.6. Fundamental Research 544 12.7. Conclusion 547 References 547 Appendix A: High Temperature Alloys 549 Appendix B: Cation Diffusion Kinetics in Ionic Solids 553 Appendix C: The Error Function 561 Appendix D: Self-Diffusion Coefficients 565 Index 567
adam_txt	Preface ix Glossary of Symbols xiii Abbreviations and Acronyms xvii 1. The Nature of High Temperature Oxidation 1 1.1. Metal Loss Due to the Scaling of Steel 1 1.2. Heating Elements 4 1.3. Protecting Turbine Engine Components 5 1.4. Hydrocarbon Cracking Furnaces 9 1.5. Prediction and Measurement 10 1.6. Rate Equations 15 1.7. Reaction Morphology: Specimen Examination 22 1.8. Summary 26 References 26 2. Enabling Theory 29 2.1. Chemical Thermodynamics 30 2.2. Chemical Equilibria Between Solids and Gases 34 2.3. Alloys and Solid Solutions 42 2.4. Chemical Equilibria Between Alloys and Gases 46 2.5. Thermodynamics of Diffusion 51 2.6. Absolute Rate Theory Applied to Lattice Particle Diffusion 55 2.7. Diffusion in Alloys 58 2.8. Diffusion Couples and the Measurement of Diffusion Coefficients 63 2.9. Interfacial Processes and Gas Phase Mass Transfer 66 2.10. Mechanical Effects: Stresses in Oxide Scales 71 References 76 Further Reading 77 3. Oxidation of Pure Metals 81 3.1. Experimental Findings 82 3.2. Use of Phase Diagrams 84 3.3. Point Defects and Non-Stoichiometry in Ionic Oxides 85 3.4. Lattice Species and Structural Units in Ionic Oxides 89 3.5. Gibbs-Duhem Equation for Defective Solid Oxides 91 3.6. Lattice Diffusion and Oxide Scaling: Wagner's Model 93 3.7. Validation of Wagner's Model 96 vi Contents 3.8. Impurity Effects on Lattice Diffusion 113 3.9. Microstructural Effects 115 3.10. Reactions Not Controlled by Solid-State Diffusion 127 3.11. The Value of Thermodynamic and Kinetic Analysis 133 References 135 4. Mixed Gas Corrosion of Pure Metals 139 4.1. Introduction 139 4.2. Selected Experimental Findings 140 4.3. Phase Diagrams and Diffusion Paths 147 4.4. Scale-Gas Interactions 154 4.5. Transport Processes in Mixed Scales 168 4.6. Predicting the Outcome of Mixed Gas Reactions 175 References 181 5. Oxidation of Alloys I: Single Phase Scales 185 5.1. Introduction 185 5.2. Selected Experimental Results 187 5.3. Phase Diagrams and Diffusion Paths 193 5.4. Selective Oxidation of One Alloy Component 196 5.5. Selective Oxidation of One Alloy Connponent Under Non-Steady-State Conditions 202 5.6. Solid Solution Oxide Scales 206 5.7. Transient Oxidation 216 5.8. Microstructural Changes in Subsurface Alloy Regions 226 5.9. Breakdown of Steady-State Scale 237 5.10. Other Factors Affecting Scale Growth 241 References 243 6. Oxidation of Alloys II: Internal Oxidation 247 6.1. Introduction 247 6.2. Selected Experimental Results 248 6.3. Internal Oxidation Kinetics in the Absence of External Scaling 255 6.4. Experimental Verification of Diffusion Model 260 6.5. Surface Diffusion Effects in the Precipitation Zone 267 6.6. Internal Precipitates of Low Stability 273 6.7. Precipitate Nucleation and Growth 278 6.8. Cellular Precipitation Morphologies 284 6.9. Multiple Internal Precipitates 290 6.10. Solute Interactions in the Precipitation Zone 299 6.11. Transition from Internal to External Oxidation 301 6.12. Internal Oxidation Beneath a Corroding Alloy Surface 305 6.13. Volume Expansion in the Internal Precipitation Zone 306 6.14. Success of Internal Oxidation Theory 311 References 312 Contents VM 7. Alloy Oxidation III: Multiphase Scales 315 7.1. Introduction 315 7.2. Binary Alumina Formers 316 7.3. Binary Chromia Formers 326 7.4. Ternary Alloy Oxidation 330 7.5. Scale Spallation 341 7.6. Effects of Minor Alloying Additions 347 7.7. Effects of Secondary Oxidants 352 7.8. Status of Multiphase Scale Growth Theory 355 References 356 8. Corrosion by Sulfur 361 8.1. Introduction 361 8.2. Sulfidation of Pure Metals 362 8.3. Alloying for Sulfidation Protection 367 8.4. Sulfidation in H2/H2S 378 8.5. Effects of Temperature and Sulfur Partial Pressure 381 8.6. The Role of Oxygen 382 8.7. Internal Sulfidation 383 8.8. Hot Corrosion 383 8.9. Achieving Sulfidation Resistance 391 References 392 9. Corrosion by Carbon 397 9.1. Introduction 398 9.2. Gaseous Carbon Activities 400 9.3. Carburization 402 9.4. Internal Carburization of Model Alloys 403 9.5. Internal Carburization of Heat Resisting Alloys 415 9.6. Metal Dusting of Iron and Ferritic Alloys 421 9.7. Dusting of Nickel and Austenitic Alloys 435 9.8. Protection by Oxide Scaling 444 9.9. Controlling Carbon Corrosion 449 References 450 10. Effects of Water Vapour on Oxidation 455 10.1. Introduction 455 10.2. Volatile Metal Hydroxide Formation 458 10.3. Scale-Gas Interfacial Processes 468 10.4. Scale Transport Properties 472 10.5. Water Vapour Effects on Alumina Growth 488 10.6. Void Development in Growing Scales 489 10.7. Understanding and Controlling Water Vapour Effects 490 References 492 VIU Contents 11. Cyclic Oxidation 497 11.1. Introduction 497 11.2. Alloy Depletion and Scale Rehealing 502 11.3. Spallation Models 506 11.4. Combination of Spalling and Depletion Models 514 11.5. Effects of Experimental Variables 517 11.6. Describing and Predicting Cyclic Oxidation 527 References 530 12. Alloy Design 533 12.1. Introduction 533 12.2. Alloy Design for Resistance to Oxygen 534 12.3. Design Against Oxide Scale Spallation 537 12.4. Design for Resistance to Other Corrodents and Mixed Gases 538 12.5. Future Research 539 12.6. Fundamental Research 544 12.7. Conclusion 547 References 547 Appendix A: High Temperature Alloys 549 Appendix B: Cation Diffusion Kinetics in Ionic Solids 553 Appendix C: The Error Function 561 Appendix D: Self-Diffusion Coefficients 565 Index 567
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spelling	Young, David John Verfasser aut High temperature oxidation and corrosion of metals by David John Young 1. ed. Amsterdam [u.a.] Elsevier 2008 xvii, 574 p. zahlr. Ill. und graph. Darst. txt rdacontent n rdamedia nc rdacarrier Elsevier corrosion series 1 Includes bibliographical references and index. - Formerly CIP Alloys Metallic oxides Metals Effect of high temperatures on Oxidation (DE-588)4137187-2 gnd rswk-swf Metall (DE-588)4038860-8 gnd rswk-swf Korrosion (DE-588)4032518-0 gnd rswk-swf Metalloxide (DE-588)4169619-0 gnd rswk-swf Hochtemperatur (DE-588)4282597-0 gnd rswk-swf Metall (DE-588)4038860-8 s Korrosion (DE-588)4032518-0 s Oxidation (DE-588)4137187-2 s 1\p DE-604 Hochtemperatur (DE-588)4282597-0 s 2\p DE-604 Metalloxide (DE-588)4169619-0 s 3\p DE-604 Elsevier corrosion series 1 (DE-604)BV035344244 1 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016990374&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Young, David John High temperature oxidation and corrosion of metals Elsevier corrosion series Alloys Metallic oxides Metals Effect of high temperatures on Oxidation (DE-588)4137187-2 gnd Metall (DE-588)4038860-8 gnd Korrosion (DE-588)4032518-0 gnd Metalloxide (DE-588)4169619-0 gnd Hochtemperatur (DE-588)4282597-0 gnd
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title	High temperature oxidation and corrosion of metals
title_auth	High temperature oxidation and corrosion of metals
title_exact_search	High temperature oxidation and corrosion of metals
title_exact_search_txtP	High temperature oxidation and corrosion of metals
title_full	High temperature oxidation and corrosion of metals by David John Young
title_fullStr	High temperature oxidation and corrosion of metals by David John Young
title_full_unstemmed	High temperature oxidation and corrosion of metals by David John Young
title_short	High temperature oxidation and corrosion of metals
title_sort	high temperature oxidation and corrosion of metals
topic	Alloys Metallic oxides Metals Effect of high temperatures on Oxidation (DE-588)4137187-2 gnd Metall (DE-588)4038860-8 gnd Korrosion (DE-588)4032518-0 gnd Metalloxide (DE-588)4169619-0 gnd Hochtemperatur (DE-588)4282597-0 gnd
topic_facet	Alloys Metallic oxides Metals Effect of high temperatures on Oxidation Metall Korrosion Metalloxide Hochtemperatur
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016990374&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV035344244
work_keys_str_mv	AT youngdavidjohn hightemperatureoxidationandcorrosionofmetals

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