Fundamentals of radiation materials science : metals and alloys /: metals and alloys. ([2016])
- Record Type:
- Book
- Title:
- Fundamentals of radiation materials science : metals and alloys /: metals and alloys. ([2016])
- Main Title:
- Fundamentals of radiation materials science : metals and alloys
- Further Information:
- Note: Gary S. Was.
- Other Names:
- Was, Gary S (Gary Steven), 1953-
- Contents:
- Part I Radiation Damage. 1. The Radiation Damage Event. 1.1 Neutron–Nucleus Interactions. 1.2 Interactions Between Ions and Atoms. 1.3 Energy Loss Nomenclature. Problems. References.2. The Displacement of Atoms. 2.1 Elementary Displacement Theory. 2.2 Modifications to the K–P Displacement Model. 2.3 The Displacement Cross Section. 2.4 Displacement Rates. 2.5 Correlation of Property Changes and Irradiation Dose. 2.6 Displacements from Charged Particle Irradiation. Nomenclature. Problems. References.3. The Damage Cascade. 3.1 Displacement Mean Free Path. 3.2 Primary Recoil Spectrum. 3.3 Cascade Damage Energy and Cascade Volume. 3.4 Computer Simulations of Radiation Damage. 3.5 Stages of Cascade Development. 3.6 Behavior of Defects within the Cascade. Nomenclature. Problems. References. 4. Point Defect Formation and Diffusion. 4.1 Properties of Irradiation-Induced Defects. 4.2 Thermodynamics of Point Defect Formation. 4.3 Diffusion of Point Defects. 4.4 Correlated Diffusion. 4.5 Diffusion in Multicomponent Systems. 4.6 Diffusion along High Diffusivity Paths. Nomenclature. Problems. References. 5. Radiation-Enhanced and Diffusion Defect Reaction Rate Theory. 5.1 Point Defect Balance Equations. 5.2 Radiation-Enhanced Diffusion. 5.3 Defect Reactions. 5.4 Reaction Rate-Controlled Processes. 5.5 Diffusion-Limited Reactions. 5.6 Mixed Rate Control. 5.7 Defect–Grain Boundary Reactions. 5.8 Coherent Precipitates and Solutes. 5.9 Point Defect Recovery. Nomenclature. Problems.Part I Radiation Damage. 1. The Radiation Damage Event. 1.1 Neutron–Nucleus Interactions. 1.2 Interactions Between Ions and Atoms. 1.3 Energy Loss Nomenclature. Problems. References.2. The Displacement of Atoms. 2.1 Elementary Displacement Theory. 2.2 Modifications to the K–P Displacement Model. 2.3 The Displacement Cross Section. 2.4 Displacement Rates. 2.5 Correlation of Property Changes and Irradiation Dose. 2.6 Displacements from Charged Particle Irradiation. Nomenclature. Problems. References.3. The Damage Cascade. 3.1 Displacement Mean Free Path. 3.2 Primary Recoil Spectrum. 3.3 Cascade Damage Energy and Cascade Volume. 3.4 Computer Simulations of Radiation Damage. 3.5 Stages of Cascade Development. 3.6 Behavior of Defects within the Cascade. Nomenclature. Problems. References. 4. Point Defect Formation and Diffusion. 4.1 Properties of Irradiation-Induced Defects. 4.2 Thermodynamics of Point Defect Formation. 4.3 Diffusion of Point Defects. 4.4 Correlated Diffusion. 4.5 Diffusion in Multicomponent Systems. 4.6 Diffusion along High Diffusivity Paths. Nomenclature. Problems. References. 5. Radiation-Enhanced and Diffusion Defect Reaction Rate Theory. 5.1 Point Defect Balance Equations. 5.2 Radiation-Enhanced Diffusion. 5.3 Defect Reactions. 5.4 Reaction Rate-Controlled Processes. 5.5 Diffusion-Limited Reactions. 5.6 Mixed Rate Control. 5.7 Defect–Grain Boundary Reactions. 5.8 Coherent Precipitates and Solutes. 5.9 Point Defect Recovery. Nomenclature. Problems. References. Part II Physical Effects of Radiation Damage6. Radiation-Induced Segregation. 6.1 Radiation-Induced Segregation in Concentrated Binary Alloys. 6.2 RIS in Ternary Alloys. 6.3 Effect of Local Composition Changes on RIS. 6.4 Effect of Solutes on RIS. 6.5 Examples of RIS in Austenitic Alloys. 6.6 RIS in Ferritic Alloys. 6.7 Effect of Grain Boundary Structure on RIS. Nomenclature. Problems. References. 7. Dislocation Microstructure. 7.1 Dislocation Lines. 7.2 Faulted Loops and Stacking Fault Tetrahedra. 7.3 Defect Clusters. 7.4 Extended Defects. 7.5 Effective Defect Production. 7.6 Nucleation and Growth of Dislocation Loops. 7.7 Dislocation Loop Growth. 7.8 Recovery. 7.9 Evolution of the Interstitial Loop Microstructure. Nomenclature. Problems. References. 8. Irradiation-Induced Voids and Bubbles. 8.1 Void Nucleation. 8.2 Void Growth. 8.3 Void Growth Equation. 8.4 Bubble Growth. Nomenclature. Problems. References. 9. Phase Stability Under Irradiation. 9.1 Radiation-Induced Segregation and Radiation-Induced Precipitation. 9.2 Recoil Dissolution. 9.3 Radiation Disordering. 9.4 Incoherent Precipitate Nucleation. 9.5 Coherent Precipitate Nucleation. 9.6 Examples of Radiation-induced Precipitation. 9.7 Metastable Phases. 9.8 Amorphization. 9.9 Phase Stability in Reactor Core Component Alloys. Nomenclature. Problems. References.10. Unique Effects of Ion Irradiation. 10.1 Ion Irradiation Techniques. 10.2 Composition Changes. 10.3 Other Effects of Ion Implantation. 10.4 High Dose Gas Loading: Blistering and Exfoilation. 10.5 Solid Phases and Inert Gas Bubble Lattices. 10.6 Displacements due to Electronic Excitation. 10.7 Ion Beam Assisted Deposition. Nomenclature. Problems. References. 11. Simulation of Neutron Irradiation Effects with Ions. 11.1 Motivation for Using Ion Irradiation as a Surrogate for Neutron Irradiation. 11.2 Review of Aspects of Radiation Damage Relevant to Ion Irradiation. 11.3 Particle Type Dependence of RIS. 11.4 Advantages and Disadvantages of the Various Particle Types. 11.5 Irradiation Parameters for Particle Irradiations. 11.6 Emulation of Neutron Irradiation Damage with Proton Irradiation. 11.7 Emulation of Neutron Irradiation Damage with Self-Ion Irradiation. Nomenclature. Problems. References. Part III Mechanical Effects of Radiation Damage.12 Irradiation Hardening and Deformation. 12.1 Elastic and Plastic Deformation. 12.2 Irradiation Hardening. 12.3 Deformation in Irradiated Metals. Nomenclature. Problems. References. 13. Irradiation Creep and Growth. 13.1 Thermal Creep. 13.2 Irradiation Creep. 13.3 Irradiation Growth and Creep in Zirconium Alloys. Nomenclature. Problems. References.14. Fracture and Embrittlement. 14.1 Types of Fracture. 14.2 The Cohesive Strength of Metals. 14.3 Fracture Mechanics. 14.4 Fracture Mechanics Tests. 14.5 Elastic–plastic Fracture Mechanics. 14.6 Brittle Fracture. 14.7 Irradiation-Induced Embrittlement in Ferritic Steels. 14.8 Fracture and Fatigue of Austenitic Alloys at Low to Intermediate Temperatures. 14.9 High-Temperature Embrittlement. Nomenclature. Problems. References. 15. Corrosion and Stress Corrosion Cracking Fundamentals. 15.1 Forms of Corrosion. 15.2 Thermodynamics of Corrosion. 15.3 Kinetics of Corrosion. 15.4 Polarization. 15.5 Passivity. 15.6 Crevice Corrosion. 15.7 Stress Corrosion Cracking. 16. Effects of Irradiation on Corrosion and Environmentally Assisted Cracking. 16.1 Effects of Irradiation on Water Chemistry. 16.2 Effects of Irradiation on Oxide. 16.3 Effects of Irradiation on Stress Corrosion Cracking. 16.4 Mechanism of IASCC. Nomenclature. Problems. References. Index. … (more)
- Edition:
- Second edition
- Publisher Details:
- New York : Springer
- Publication Date:
- 2016
- Copyright Date:
- 2017
- Extent:
- 1 online resource (xxii, 827 pages), illustrations
- Subjects:
- 620.1/6
Energy
Metals -- Effect of radiation on
Metals -- Effect of radiation on
Technology & Engineering -- Material Science
Science -- Solid State Physics
Metals technology / metallurgy
Condensed matter physics (liquid state & solid state physics)
Materials
Technology & Engineering -- Power Resources -- Nuclear
Nuclear power & engineering
Electronic books - Languages:
- English
- ISBNs:
- 9781493934386
1493934384 - Related ISBNs:
- 9781493934362
- Notes:
- Note: Includes bibliographical references and index.
Note: Online resource; title from PDF title page (SpringerLink, viewed July 13, 2016). - Access Rights:
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