Dislocation Modelling of Physical Systems
eBook - PDF

Dislocation Modelling of Physical Systems

Proceedings of the International Conference, Gainesville, Florida, USA, June 22-27, 1980

  1. 598 pages
  2. English
  3. PDF
  4. Available on iOS & Android
eBook - PDF

Dislocation Modelling of Physical Systems

Proceedings of the International Conference, Gainesville, Florida, USA, June 22-27, 1980

About this book

Dislocation Modelling of Physical Systems contains the Proceedings of the International Conference held at Gainesville, Florida, USA on June 22-27, 1980. The book emphasizes the growing interest in relating dislocation theoretic concepts to engineering problems. Topic areas chosen ranged from the fundamental, such as properties of single dislocations, to the more applied, such as fracture. The papers are grouped specifically based on the main topics they discuss. These topics include fracture; point defects and dislocations; structure dependence of mechanical behavior; properties of single dislocations; plasticity and geometry of deformation; internal friction effects; and boundaries.

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Yes, you can access Dislocation Modelling of Physical Systems by M.F. Ashby, R. Bullough, C.S. Hartley, M.F. Ashby,R. Bullough,C.S. Hartley in PDF and/or ePUB format, as well as other popular books in Technology & Engineering & Engineering General. We have over one million books available in our catalogue for you to explore.

Table of contents

  1. Front Cover
  2. Dislocation Modelling of Physical Systems
  3. Copyrigh Page
  4. Table of Contents
  5. Foreword
  6. CHAPTER 1. RELATIONS BETWEEN DISLOCATION MECHANISMS AND FRACTURE TOUGHNESS
  7. CHAPTER 2. ON CRACK PROPAGATION ALONG CRYSTALLOGRAPHIC SLIP BANDS
  8. CHAPTER 3. A MODEL OF SHEAR CRACKS WITH DISLOCATION-FREE ZONES
  9. CHAPTER 4. SOLUTE EFFECTS ON INTERGRANULAR FRACTURE
  10. CHAPTER 5. "DISLOCATION CELL STRUCTURES AND A MECHANISM FOR EROSION OF DUCTILE MATERIALS"
  11. CHAPTER 6. DISLOCATIONS AND THE FATIGUE STRENGTH OF METALS
  12. CHAPTER 7. A DISLOCATION MODEL FOR FACETED MODE OF FATIGUE CRACK GROWTH
  13. CHAPTER 8. IN SITU OBSERVATION OF DISLOCATION BEHAVIOUR IN FATIGUE PROCESS BY HVEM
  14. CHAPTER 9. IN SITU OBSERVATION OF DISLOCATION BEHAVIOUR IN FATIGUE PROCESS BY HVEM
  15. CHAPTER 10. ENGINEERING FRACTURE CRITERIA
  16. CHAPTER 11. DISLOCATION MODELS IN FRACTURE
  17. CHAPTER 12. VARIATIONAL FORMULATIONS IN DEFECT MECHANICS: CRACKS AND DISLOCATIONS
  18. CHAPTER 13. THE INTERACTION ENERGY BETWEEN INTERSTITIAL ATOMS AND DISLOCATIONS AND ITS RELEVANCE TO IRRADIATION DAMAGE PROCESSES
  19. CHAPTER 14. ON THE SIMULTANEOUS FORMATION OF INTERSTITIAL - AND VACANCY-TYPE LOOPS DURING IRRADIATION
  20. CHAPTER 15. The Effect of Dislocation-Point Defect Interactions on Rate Processes in Metals
  21. CHAPTER 16. RADIUS DEPENDENCE OF THE SINK STRENGTH OF A DISLOCATION LOOP
  22. CHAPTER 17. A FRANK LOOP UNFAULTING MECHANISM IN fcc METALS DURING NEUTRON IRRADIATION
  23. CHAPTER 18. ON THE KINETICS OF THE LOCKING OF A SCREW DISLOCATION DUE TO REORDERING OF AN INTERSTITIAL SOLUTE IN A BCC METAL
  24. CHAPTER 19. A MECHANISM RATIONALIZING STRAIN AGING KINETICS IN NICKEL 200
  25. CHAPTER 20. DISLOCATION KINETICS AT NOT-SO-CONSTANT STRUCTURE
  26. CHAPTER 21. HIGH VOLTAGE ELECTRON MICROSCOPY AND MODELS OF DEFORMATION
  27. CHAPTER 22. STRAIN HARDENING AND DYNAMIC RECOVERY
  28. CHAPTER 23. SOLUTION EFFECTS ON THE MECHANICAL BEHAVIOUR AND THE DISLOCATION MOBILITY IN SILICON CRYSTALS
  29. CHAPTER 24. THE NUCLEATION AND GROWTH OF DEFORMATION TWINS IN METALLIC CRYSTALS
  30. CHAPTER 25. ADVANCES IN THE CONTINUUM ELASTIC THEORY OF DISLOCATIONS
  31. CHAPTER 26. EDGE DISLOCATIONS AND DISCRETE ELASTIC THEORY
  32. CHAPTER 27. ACCELERATING DISLOCATIONS: SOME RECENT RESULTS
  33. CHAPTER 28. ATOMIC MODELS OF SINGLE DISLOCATIONS
  34. CHAPTER 29. COMPUTER SIMULATION OF DISLOCATION CORES IN HCP METALS
  35. CHAPTER 30. THE LOW TEMPERATURE FLOW STRESS OF BODY–CENTRED CUBIC MATERIALS
  36. CHAPTER 31. ATOMISTIC STUDIES OF DISLOCATIONS AND STACKING FAULT–TYPE DEFECTS IN LI2 ORDERED STRUCTURES
  37. CHAPTER 32. DESCRIPTION OF DISLOCATION DISTRIBUTIONS
  38. CHAPTER 33. THE DISPLACEMENT FIELD OF A DISLOCATION DISTRIBUTION
  39. CHAPTER 34. THE STRESS FIELD OF DISLOCATION ARRAYS
  40. CHAPTER 35. THE STRESS FIELD OF DISLOCATION ARRAYS
  41. CHAPTER 36. THE DYNAMICS OF THE GROUP OF DISLOCATIONS AND THE INSTABILITY OF PLASTIC FLOW
  42. CHAPTER 37. DISLOCATION STRUCTURES PRODUCED BY CROSS-SLIP
  43. CHAPTER 38. THE DISLOCATED STATE
  44. CHAPTER 39. DISLOCATIONS AND INELASTICITY OF SOLIDS
  45. CHAPTER 40. INFLUENCE OF TEXTURE AND SLIP MODE ON CREEP CONSTITUTIVE BEHAVIOR OF HEXAGONAL METALS
  46. CHAPTER 41. PHENOMENOLOGICAL PLASTICITY AND DISLOCATION MODELS OF DEFORMATION
  47. CHAPTER 42. A THEORY ON THE SHAPE OF SATURATED HYSTERESIS LOOPS
  48. CHAPTER 43. VOID STRENGTHENING
  49. CHAPTER 44. DISLOCATIONS IN NON-CRYSTALLINE MEDIA?
  50. CHAPTER 45. DISLOCATION MODEL OF SOLIDIFICATION AND THE FORMATION OF AMORPHOUS SOLIDS
  51. CHAPTER 46. SOME RECENT RESULTS OF THE THEORY OF DISCLINATIONS AND DISPIRATIONS
  52. CHAPTER 47. APPLICATION OF INTERNAL FRICTION MEASUREMENTS TO THE STUDY OF DISLOCATIONS AND PLASTIC FLOW
  53. CHAPTER 48. A RATE THEORY OF DISLOCATION MOTION INCORPORATING INERTIAL OVERSHOOT EFFECTS
  54. CHAPTER 49. SOME ASPECTS OF DISLOCATION - POINT DEFECT INTERACTIONS AND THEIR SIGNIFICANCE TO INTERNAL FRICTION
  55. CHAPTER 50. SOME ASPECTS OF DISLOCATION – POINT DEFECT INTERACTIONS AND THEIR SIGNIFICANCE TO INTERNAL FRICTION
  56. CHAPTER 51. MODE DEPENDENCE OF PHONON SCATTERING BY DISLOCATIONS
  57. CHAPTER 52. THERMAL RESISTANCE ARISING FROM DYNAMIC SCATTERING OF PHONONS BY DISLOCATIONS
  58. CHAPTER 53. DISLOCATION DRAG MECHANISMS
  59. CHAPTER 54. THEORY OF ACOUSTIC EMISSION
  60. CHAPTER 55. DISLOCATION SOURCES
  61. CHAPTER 57. DEFECTS IN REGULAR CELLULAR STRUCTURES AND THEIR ROLE IN GRAIN GROWTH MECHANISMS
  62. CHAPTER 58. OBSERVATIONS OF GRAIN BOUNDARY STRUCTURE
  63. Chapter 59. Grain Boundary Dislocations and the Topography of Grain Boundary Planes
  64. Chapter 60. THE DISLOCATION STRUCTURE OF HIGH ANGLE GRAIN BOUNDARIES
  65. Chapter 61. DISSOCIATED DISLOCATIONS IN (111) TWIST BOUNDARIES
  66. Chapter 62. DISLOCATIONS AND FREE SURFACES IN THE MICROPLASTIC DEFORMATION OF F.C.C. METALS: AN X-RAY TOPOGRAPHIC STUDY
  67. Chapter 63. THE CLIMB OF DISSOCIATED DISLOCATIONS
  68. Chapter 64. On the Contribution of Grain Boundary Dislocations to Grain Boundary Sliding, Migration and Point Defect Emission
  69. Chapter 65. THE ROLE OF VACANCIES IN THE KINETICS OF GRAIN BOUNDARY MOTION
  70. Chapter 66. A PRELIMINARY STUDY OF PERSISTENT SLIP BANDS IN AgCl
  71. INDEX