Keywords:
Metals -- Effect of radiation on.
;
Electronic books.
Type of Medium:
Online Resource
Pages:
1 online resource (736 pages)
Edition:
1st ed.
ISBN:
9780444598226
Series Statement:
Issn Series ; v.Volume 13
URL:
https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=1152681
DDC:
530.4/1
Language:
English
Note:
Front Cover -- Physics of Radiation Effects in Crystals -- Copyright Page -- Table of Contents -- PREFACE TO THE SERIES -- PREFACE -- PART I -- CHAPTER 1. Basic Defects in Metals -- Introduction -- 1. Theory of point defects -- 2. Experimental methods -- 3. Results for point defects in metals -- Acknowledgements -- References -- CHAPTER 2. Production of Radiation Defects by Collision Cascades in Metals -- 1. Introduction -- 2. Formation of primary knock-on atoms -- 3. Radiation damage dynamics -- 4. Radiation damage dynamics at high energies -- 5. Radiation damage dynamics in crystals with defects -- 6. Radiation damage of amorphous metals -- References -- CHAPTER 3. Theory of Microstructural Evolution -- 1. Introduction -- 2. Fundamental considerations -- 3. Mathematical rate theory -- 4. Simulation of neutron damage -- 5. Conclusions -- References -- CHAPTER 4. Phase Stability and Solute Segregation during Irradiation -- 1. Introduction -- 2. Kinetic processes -- 3. Effects on equilibration and on redistribution of phases -- 4. Radiation-induced nonequilibrium phases -- 5. Effects of irradiation on near surface structure and composition -- Acknowledgements -- References -- PART II -- CHAPTER 5. Quasichemical Reactions Involving Point Defects in Irradiated Semiconductors -- 1. Introduction -- 2. Formation of primary defects -- 3. Diffusion of primary defects -- 4. Reactions involving vacancies V, interstitial atoms I, and impurities F -- 5. Reactions between point defects in inhomogeneous systems -- References -- CHAPTER 6. Radiation Damage and Stress Effects in Superconductors: Materials for High-Field Applications -- 1. Introduction -- 2. NbTi -- 3. A15 Compounds -- 4. Summary -- References -- CHAPTER 7. Radiation Effects in Non-Metals -- 1. Introduction -- 2. The primary damage event -- 3. Secondary defect kinetics -- 4 . Structural effects.
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5. Electrical and optical effects -- 6. Practical considerations -- 7. Summary -- Acknowledgements -- References -- CHAPTER 8. Creation of Frenkel Defect Pairs by Excitons in Alkali Halides -- 1. Introduction -- 2. Electronic excitations -- 3. Point defects -- 4. Creation of long-lived anion defects by radiation -- 5. Recombination of complementary Frenkel defects -- 6. Tunnelling recharge and aggregation of defects -- 7. Short-lived radiation defects -- 8. Mechanisms of exciton decay with defect creation -- 9. Concluding remarks -- Acknowledgements -- References -- List of symbols and abbreviations -- CHAPTER 9. Irradiation Growth of Metals and Alloys -- 1. Introduction -- 2. General characteristic -- 3. Simulation studies of the irradiation growth of metals and alloys -- 4. Mechanism of irradiation growth -- 5. Conclusions -- References -- CHAPTER 10. Irradiation Creep of Metals -- Introduction -- Part I: A set of equations used to describe irradiation creep -- 1. Equations for point defect motion in a crystal -- 2. Rate equations for point defect concentrations -- 3. Boundary concentrations of point defects -- 4. A flux of point defects into sinks -- 5. Conclusions to Part I -- Part II: Models for irradiation creep -- 6. Irradiation creep models based on interstitial loops -- 7. SIPA mechanism of irradiation creep -- 8. "Climb plus glide"- type models -- 9. Radiation annealing of dislocation structures and irradiation creep controlled by recovery processes -- References -- CHAPTER 11. Blistering -- 1. Introduction -- 2. Basic features of blistering and exfoliation -- 3. Theory -- 4. Methods for reducing the erosion of materials during blistering and exfoliation -- References -- AUTHOR INDEX -- SUBJECT INDEX -- CUMULATIVE INDEX, VOLUMES 1-13.
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