Verfügbarkeit: Mechanical properties of metals :

$Mechanical properties of metals : atomistic and fractal continuum approaches /$

Mechanical properties of metals :: atomistic and fractal continuum approaches /

The book is intended to describe the basic and newly developed elements of the physics of solids and materials science on mechanical properties of metals with as much continuity as is possible. Particular emphasis has been placed in atomistic and fractal approaches and continuum theory of dislocatio...

Ausführliche Beschreibung

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Bibliographische Detailangaben
1. Verfasser:	Lung, C. W.
Weitere Verfasser:	March, Norman H. (Norman Henry), 1927-
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Singapore ; New Jersey : World Scientific, ©1999.
Schlagworte:	Metals > Mechanical properties. Métaux > Propriétés mécaniques. TECHNOLOGY & ENGINEERING > Material Science. Metals > Mechanical properties
Online-Zugang:	Volltext
Zusammenfassung:	The book is intended to describe the basic and newly developed elements of the physics of solids and materials science on mechanical properties of metals with as much continuity as is possible. Particular emphasis has been placed in atomistic and fractal approaches and continuum theory of dislocations is also introduced. Since the book is meant for the two main topics of progress in recent years, some interesting and important topics which have not been discussed or introduced are given in detail.
Beschreibung:	1 online resource (xv, 415 pages) : illustrations
Bibliographie:	Includes bibliographical references and index.
ISBN:	981024858X 9789810248581

Internformat

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245	1	0	\|a Mechanical properties of metals : \|b atomistic and fractal continuum approaches / \|c C.W. Lung, N.H. March.
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505	0		\|a Preface; CONTENTS; Chapter 1 Background and Some Concepts; Introduction; 1.1. Elastic and Plastic Regimes; 1.1.1. Elastic Deformation; 1.1.2. Atomic Forces and Elastic Properties; 1.1.3. Plastic Deformation; 1.2. Griffith Criterion: Role of Surfaces; 1.3. Peierls Stress and Barrier; 1.4. Dislocation Core and Atomic Force; 1.5. Stacking Faults; 1.6. Glissile and Sessile Dislocations; 1.7. Concept of Fractals; 1.8. 'Glue' and Related Models of Interatomic Force Fields; 1.9. Pair Potentials; 1.10. Grain and Twin Boundaries; 1.11. Alloy Formation: Rules and Models
505	8		\|a 1.11.1. Solid Solubility: Hume-Rothery Factors(a) Size effects; (b) Electrochemical factor; (c) Valence-difference effect; 1.12. Friction Mechanisms*; Chapter 2 Phenomenology and Experiments; 2.1. Plastic Deformation of bcc Metals; 2.1.1. Deviation from the Schmid Law; 2.1.2. Temperature Dependence of Critical Resolved Shear Stress of bcc Metals; 2.2. Phonons, Electrons and Plasticity; 2.2.1. Phonon Drag of Dislocations in Metals; 2.2.2. Electron Drag of Dislocations in Metals; 2.2.3. Superconductivity and Plasticity; 2.2.4. The Electroplastic Effects in Metals
505	8		\|a 2.3. High Temperature Strength of Alloys2.3.1. Diffusion Creep; 2.3.2. Effect of Solute Atoms; 2.4. The Crack and Fracture; 2.4.1. Cleavage Cracks; 2.4.2. Emitting Cracks; 2.4.3. Plastically Blunted Cracks; 2.4.4. The Condition for Intrinsic Brittleness; 2.4.5. Dislocation Shielding, Antishielding and Annihilation at the Crack Tip; 2.4.6. Dislocation Dynamics and Fracture; 2.5. Power Law Relation between the Plastic Strain and the Number of Cycles to Fatigue Failure; 2.6. Statistical Behaviour for the Fracture of Disordered Media
505	8		\|a 2.6.1. Statistical Fluctuations in the Rupture Stress of Materials2.6.2. The Dependence of the Mean Fracture Stress on the Sample Size; 2.6.3. Local Damage Zones; 2.7. The Roughness of the Crack Surface; 2.8. Dynamic Instabilities of Fracture; Chapter 3 Introduction to Extended Defects and Mechanical Strength; 3.1. Some Basic Theory of Crystal Dislocations; 3.1.1. Dislocations and Slip; 3.1.2. Burgers Vector; 3.1.3. Glide and Climb; 3.1.4. Jogs; 3.1.5. Forces on Dislocations; 3.2. Elastic Field of Straight Dislocation; 3.2.1. Summary of Isotropic Elasticity Theory
505	8		\|a 3.2.2. Elastic Field of An Edge Dislocation3.2.3. Elastic Field of Screw Dislocation; 3.2.4. Uniform Dissociation Model of Dislocation Core; 3.2.5. Mixed Dislocations; 3.2.6. Dislocations in Anisotropic Media; 3.3. Interactions of Dislocation with Other Defects; 3.3.1. Interactions vrith Point Defects; 3.3.2. Interactions with Planar Free Surface; 3.4. Crystal Lattice Effects; 3.4.1. Stacking Order in Closed-Packed Structures; 3.4.2. Partial and Extended Dislocations in fcc Crystals; 3.4.3 Stacking Faults and Extended Dislocations in Plastic Deformation
520			\|a The book is intended to describe the basic and newly developed elements of the physics of solids and materials science on mechanical properties of metals with as much continuity as is possible. Particular emphasis has been placed in atomistic and fractal approaches and continuum theory of dislocations is also introduced. Since the book is meant for the two main topics of progress in recent years, some interesting and important topics which have not been discussed or introduced are given in detail.
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contents	Preface; CONTENTS; Chapter 1 Background and Some Concepts; Introduction; 1.1. Elastic and Plastic Regimes; 1.1.1. Elastic Deformation; 1.1.2. Atomic Forces and Elastic Properties; 1.1.3. Plastic Deformation; 1.2. Griffith Criterion: Role of Surfaces; 1.3. Peierls Stress and Barrier; 1.4. Dislocation Core and Atomic Force; 1.5. Stacking Faults; 1.6. Glissile and Sessile Dislocations; 1.7. Concept of Fractals; 1.8. 'Glue' and Related Models of Interatomic Force Fields; 1.9. Pair Potentials; 1.10. Grain and Twin Boundaries; 1.11. Alloy Formation: Rules and Models 1.11.1. Solid Solubility: Hume-Rothery Factors(a) Size effects; (b) Electrochemical factor; (c) Valence-difference effect; 1.12. Friction Mechanisms*; Chapter 2 Phenomenology and Experiments; 2.1. Plastic Deformation of bcc Metals; 2.1.1. Deviation from the Schmid Law; 2.1.2. Temperature Dependence of Critical Resolved Shear Stress of bcc Metals; 2.2. Phonons, Electrons and Plasticity; 2.2.1. Phonon Drag of Dislocations in Metals; 2.2.2. Electron Drag of Dislocations in Metals; 2.2.3. Superconductivity and Plasticity; 2.2.4. The Electroplastic Effects in Metals 2.3. High Temperature Strength of Alloys2.3.1. Diffusion Creep; 2.3.2. Effect of Solute Atoms; 2.4. The Crack and Fracture; 2.4.1. Cleavage Cracks; 2.4.2. Emitting Cracks; 2.4.3. Plastically Blunted Cracks; 2.4.4. The Condition for Intrinsic Brittleness; 2.4.5. Dislocation Shielding, Antishielding and Annihilation at the Crack Tip; 2.4.6. Dislocation Dynamics and Fracture; 2.5. Power Law Relation between the Plastic Strain and the Number of Cycles to Fatigue Failure; 2.6. Statistical Behaviour for the Fracture of Disordered Media 2.6.1. Statistical Fluctuations in the Rupture Stress of Materials2.6.2. The Dependence of the Mean Fracture Stress on the Sample Size; 2.6.3. Local Damage Zones; 2.7. The Roughness of the Crack Surface; 2.8. Dynamic Instabilities of Fracture; Chapter 3 Introduction to Extended Defects and Mechanical Strength; 3.1. Some Basic Theory of Crystal Dislocations; 3.1.1. Dislocations and Slip; 3.1.2. Burgers Vector; 3.1.3. Glide and Climb; 3.1.4. Jogs; 3.1.5. Forces on Dislocations; 3.2. Elastic Field of Straight Dislocation; 3.2.1. Summary of Isotropic Elasticity Theory 3.2.2. Elastic Field of An Edge Dislocation3.2.3. Elastic Field of Screw Dislocation; 3.2.4. Uniform Dissociation Model of Dislocation Core; 3.2.5. Mixed Dislocations; 3.2.6. Dislocations in Anisotropic Media; 3.3. Interactions of Dislocation with Other Defects; 3.3.1. Interactions vrith Point Defects; 3.3.2. Interactions with Planar Free Surface; 3.4. Crystal Lattice Effects; 3.4.1. Stacking Order in Closed-Packed Structures; 3.4.2. Partial and Extended Dislocations in fcc Crystals; 3.4.3 Stacking Faults and Extended Dislocations in Plastic Deformation
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publisher	World Scientific,
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spelling	Lung, C. W. Mechanical properties of metals : atomistic and fractal continuum approaches / C.W. Lung, N.H. March. Singapore ; New Jersey : World Scientific, ©1999. 1 online resource (xv, 415 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references and index. Print version record. Preface; CONTENTS; Chapter 1 Background and Some Concepts; Introduction; 1.1. Elastic and Plastic Regimes; 1.1.1. Elastic Deformation; 1.1.2. Atomic Forces and Elastic Properties; 1.1.3. Plastic Deformation; 1.2. Griffith Criterion: Role of Surfaces; 1.3. Peierls Stress and Barrier; 1.4. Dislocation Core and Atomic Force; 1.5. Stacking Faults; 1.6. Glissile and Sessile Dislocations; 1.7. Concept of Fractals; 1.8. 'Glue' and Related Models of Interatomic Force Fields; 1.9. Pair Potentials; 1.10. Grain and Twin Boundaries; 1.11. Alloy Formation: Rules and Models 1.11.1. Solid Solubility: Hume-Rothery Factors(a) Size effects; (b) Electrochemical factor; (c) Valence-difference effect; 1.12. Friction Mechanisms*; Chapter 2 Phenomenology and Experiments; 2.1. Plastic Deformation of bcc Metals; 2.1.1. Deviation from the Schmid Law; 2.1.2. Temperature Dependence of Critical Resolved Shear Stress of bcc Metals; 2.2. Phonons, Electrons and Plasticity; 2.2.1. Phonon Drag of Dislocations in Metals; 2.2.2. Electron Drag of Dislocations in Metals; 2.2.3. Superconductivity and Plasticity; 2.2.4. The Electroplastic Effects in Metals 2.3. High Temperature Strength of Alloys2.3.1. Diffusion Creep; 2.3.2. Effect of Solute Atoms; 2.4. The Crack and Fracture; 2.4.1. Cleavage Cracks; 2.4.2. Emitting Cracks; 2.4.3. Plastically Blunted Cracks; 2.4.4. The Condition for Intrinsic Brittleness; 2.4.5. Dislocation Shielding, Antishielding and Annihilation at the Crack Tip; 2.4.6. Dislocation Dynamics and Fracture; 2.5. Power Law Relation between the Plastic Strain and the Number of Cycles to Fatigue Failure; 2.6. Statistical Behaviour for the Fracture of Disordered Media 2.6.1. Statistical Fluctuations in the Rupture Stress of Materials2.6.2. The Dependence of the Mean Fracture Stress on the Sample Size; 2.6.3. Local Damage Zones; 2.7. The Roughness of the Crack Surface; 2.8. Dynamic Instabilities of Fracture; Chapter 3 Introduction to Extended Defects and Mechanical Strength; 3.1. Some Basic Theory of Crystal Dislocations; 3.1.1. Dislocations and Slip; 3.1.2. Burgers Vector; 3.1.3. Glide and Climb; 3.1.4. Jogs; 3.1.5. Forces on Dislocations; 3.2. Elastic Field of Straight Dislocation; 3.2.1. Summary of Isotropic Elasticity Theory 3.2.2. Elastic Field of An Edge Dislocation3.2.3. Elastic Field of Screw Dislocation; 3.2.4. Uniform Dissociation Model of Dislocation Core; 3.2.5. Mixed Dislocations; 3.2.6. Dislocations in Anisotropic Media; 3.3. Interactions of Dislocation with Other Defects; 3.3.1. Interactions vrith Point Defects; 3.3.2. Interactions with Planar Free Surface; 3.4. Crystal Lattice Effects; 3.4.1. Stacking Order in Closed-Packed Structures; 3.4.2. Partial and Extended Dislocations in fcc Crystals; 3.4.3 Stacking Faults and Extended Dislocations in Plastic Deformation The book is intended to describe the basic and newly developed elements of the physics of solids and materials science on mechanical properties of metals with as much continuity as is possible. Particular emphasis has been placed in atomistic and fractal approaches and continuum theory of dislocations is also introduced. Since the book is meant for the two main topics of progress in recent years, some interesting and important topics which have not been discussed or introduced are given in detail. Metals Mechanical properties. http://id.loc.gov/authorities/subjects/sh85084216 Métaux Propriétés mécaniques. TECHNOLOGY & ENGINEERING Material Science. bisacsh Metals Mechanical properties. cct Metals Mechanical properties fast March, Norman H. (Norman Henry), 1927- https://id.oclc.org/worldcat/entity/E39PBJvXgDGRTMkghr8KQpM3wC http://id.loc.gov/authorities/names/n50040674 Print version: Lung, C.W. Mechanical properties of metals. Singapore ; New Jersey : World Scientific, ©1999 9810226225 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=64308 Volltext
spellingShingle	Lung, C. W. Mechanical properties of metals : atomistic and fractal continuum approaches / Preface; CONTENTS; Chapter 1 Background and Some Concepts; Introduction; 1.1. Elastic and Plastic Regimes; 1.1.1. Elastic Deformation; 1.1.2. Atomic Forces and Elastic Properties; 1.1.3. Plastic Deformation; 1.2. Griffith Criterion: Role of Surfaces; 1.3. Peierls Stress and Barrier; 1.4. Dislocation Core and Atomic Force; 1.5. Stacking Faults; 1.6. Glissile and Sessile Dislocations; 1.7. Concept of Fractals; 1.8. 'Glue' and Related Models of Interatomic Force Fields; 1.9. Pair Potentials; 1.10. Grain and Twin Boundaries; 1.11. Alloy Formation: Rules and Models 1.11.1. Solid Solubility: Hume-Rothery Factors(a) Size effects; (b) Electrochemical factor; (c) Valence-difference effect; 1.12. Friction Mechanisms*; Chapter 2 Phenomenology and Experiments; 2.1. Plastic Deformation of bcc Metals; 2.1.1. Deviation from the Schmid Law; 2.1.2. Temperature Dependence of Critical Resolved Shear Stress of bcc Metals; 2.2. Phonons, Electrons and Plasticity; 2.2.1. Phonon Drag of Dislocations in Metals; 2.2.2. Electron Drag of Dislocations in Metals; 2.2.3. Superconductivity and Plasticity; 2.2.4. The Electroplastic Effects in Metals 2.3. High Temperature Strength of Alloys2.3.1. Diffusion Creep; 2.3.2. Effect of Solute Atoms; 2.4. The Crack and Fracture; 2.4.1. Cleavage Cracks; 2.4.2. Emitting Cracks; 2.4.3. Plastically Blunted Cracks; 2.4.4. The Condition for Intrinsic Brittleness; 2.4.5. Dislocation Shielding, Antishielding and Annihilation at the Crack Tip; 2.4.6. Dislocation Dynamics and Fracture; 2.5. Power Law Relation between the Plastic Strain and the Number of Cycles to Fatigue Failure; 2.6. Statistical Behaviour for the Fracture of Disordered Media 2.6.1. Statistical Fluctuations in the Rupture Stress of Materials2.6.2. The Dependence of the Mean Fracture Stress on the Sample Size; 2.6.3. Local Damage Zones; 2.7. The Roughness of the Crack Surface; 2.8. Dynamic Instabilities of Fracture; Chapter 3 Introduction to Extended Defects and Mechanical Strength; 3.1. Some Basic Theory of Crystal Dislocations; 3.1.1. Dislocations and Slip; 3.1.2. Burgers Vector; 3.1.3. Glide and Climb; 3.1.4. Jogs; 3.1.5. Forces on Dislocations; 3.2. Elastic Field of Straight Dislocation; 3.2.1. Summary of Isotropic Elasticity Theory 3.2.2. Elastic Field of An Edge Dislocation3.2.3. Elastic Field of Screw Dislocation; 3.2.4. Uniform Dissociation Model of Dislocation Core; 3.2.5. Mixed Dislocations; 3.2.6. Dislocations in Anisotropic Media; 3.3. Interactions of Dislocation with Other Defects; 3.3.1. Interactions vrith Point Defects; 3.3.2. Interactions with Planar Free Surface; 3.4. Crystal Lattice Effects; 3.4.1. Stacking Order in Closed-Packed Structures; 3.4.2. Partial and Extended Dislocations in fcc Crystals; 3.4.3 Stacking Faults and Extended Dislocations in Plastic Deformation Metals Mechanical properties. http://id.loc.gov/authorities/subjects/sh85084216 Métaux Propriétés mécaniques. TECHNOLOGY & ENGINEERING Material Science. bisacsh Metals Mechanical properties. cct Metals Mechanical properties fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85084216
title	Mechanical properties of metals : atomistic and fractal continuum approaches /
title_auth	Mechanical properties of metals : atomistic and fractal continuum approaches /
title_exact_search	Mechanical properties of metals : atomistic and fractal continuum approaches /
title_full	Mechanical properties of metals : atomistic and fractal continuum approaches / C.W. Lung, N.H. March.
title_fullStr	Mechanical properties of metals : atomistic and fractal continuum approaches / C.W. Lung, N.H. March.
title_full_unstemmed	Mechanical properties of metals : atomistic and fractal continuum approaches / C.W. Lung, N.H. March.
title_short	Mechanical properties of metals :
title_sort	mechanical properties of metals atomistic and fractal continuum approaches
title_sub	atomistic and fractal continuum approaches /
topic	Metals Mechanical properties. http://id.loc.gov/authorities/subjects/sh85084216 Métaux Propriétés mécaniques. TECHNOLOGY & ENGINEERING Material Science. bisacsh Metals Mechanical properties. cct Metals Mechanical properties fast
topic_facet	Metals Mechanical properties. Métaux Propriétés mécaniques. TECHNOLOGY & ENGINEERING Material Science. Metals Mechanical properties
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=64308
work_keys_str_mv	AT lungcw mechanicalpropertiesofmetalsatomisticandfractalcontinuumapproaches AT marchnormanh mechanicalpropertiesofmetalsatomisticandfractalcontinuumapproaches

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