Fundamentals of creep in metals and alloys:
Gespeichert in:
1. Verfasser: | |
---|---|
Format: | Buch |
Sprache: | English |
Veröffentlicht: |
Amsterdam [u.a.]
Elsevier
2009
|
Ausgabe: | 2. ed. |
Schlagworte: | |
Online-Zugang: | Inhaltsverzeichnis |
Beschreibung: | XV, 295 S. Ill., graph. Darst. |
ISBN: | 9780080475615 |
Internformat
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100 | 1 | |a Kassner, Michael E. |e Verfasser |4 aut | |
245 | 1 | 0 | |a Fundamentals of creep in metals and alloys |c Michael E. Kassner |
250 | |a 2. ed. | ||
264 | 1 | |a Amsterdam [u.a.] |b Elsevier |c 2009 | |
300 | |a XV, 295 S. |b Ill., graph. Darst. | ||
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650 | 4 | |a Metals / Creep | |
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Datensatz im Suchindex
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---|---|
adam_text | Contents
Preface
v
List of Symbols and Abbreviations
xi
1.
Introduction
]
1.1
Description of Creep
3
1.2
Objectives
8
2.
Five-Power-Law Creep
9
2.1
Macroscopic Relationships
11
2.1.1
Activation Energy and Stress Exponents
11
2.1.2
Influence of the Elastic Modulus
17
2.1.3
Stacking Fault Energy and Summary
21
2.1.4
Natural Three-Power-Law
24
2.1.5
Substitutional Solid Solutions
28
2.2
Microstructural
Observations
28
2.2.1
Subgrain Size, Frank Network Dislocation Density,
Subgrain Misorientation Angle, and the Dislocation
Separation within the Subgrain Walls in Steady-State
Structures
28
2.2.2
Constant Structure Equations
37
2.2.3
Primary Creep
Microstructures
43
2.2.4
Creep Transient Experiments
49
2.2.5
Internal Stress
51
2.3
Rate-Controlling Mechanisms
61
2.3.1
Introduction
61
2.3.2
Dislocation
Microstructure
and the Rate-Controlling
Mechanism
72
2.3.3
In situ and
Microstructure-Manipulation
Experiments
76
2.3.4
Additional Comments on Network Strengthening
76
2.4
Other Effects on Five-Power-Law Creep
82
2.4.1
Large Strain Creep Deformation and Texture Effects
82
2.4.2
Effect of Grain Size
86
2.4.3
Impurity and Small Quantities of Strengthening Solutes
89
2.4.4
Sigmoidal Creep
92
3.
Diffusional Creep
95
4.
Harper-Dorn Creep
103
4.1
Introduction
105
4.2
Theories of Harper-Dorn Creep
108
viii
Fundamentals of Creep in Metals and Alloys
A3
More Recent Developments
115
4.4
Other Materials for which Harper-Dorn has been Suggested
118
5.
Three-Power-Law Viscous Glide Creep
123
6.
Superplasticity
135
6.1
Introduction
137
6.2
Characteristics of Fine Structure Superplasticity
137
6.3
Microstructure
of Fine Structure
Superplastic
Materials
141
6.3.1
Grain Size and Shape
141
6.3.2
Presence of a Second Phase
141
6.3.3
Nature and Properties of Grain Boundaries
141
6.4
Texture Studies in Superplasticity
142
6.5
High Strain-Rate Superplasticity
142
6.5.1
High Strain-Rate Superplasticity in Metal-Matrix
Composites
143
6.5.2
High Strain-Rate Superplasticity in Mechanically
Alloyed Materials
148
6.6
Superplasticity in
Nano
and Submicrocrystalline Materials
149
7.
Recrystallization
153
7.1
Introduction
155
7.2
Discontinuous Dynamic Recrystallization (DRX)
157
7.3
Geometric Dynamic Recrystallization
158
7.4
Particle-Stimulated Nucleation (PSN)
159
7.5
Continuous Reactions
159
8.
Creep Behavior of Particle-Strengthened Alloys
161
8.1
Introduction
163
8.2
Small Volume-Fraction Particles that are Coherent and
Incoherent with the Matrix with Small Aspect Ratios
163
8.2.1
Introduction and Theory
163
8.2.2
Local and General Climb of Dislocations over Obstacles
167
8.2.3
Detachment Model
170
8.2.4
Constitutive Relationships
173
8.2.5
Microstructural
Effects
177
8.2.6
Coherent Particles
180
9.
Creep of Intermetallics
183
9.1
Introduction
185
9.2
Titanium Aluminides
187
9.2.1
Introduction
187
9.2.2
Rate-Controlling Creep Mechanisms in FL TiAl
Intermetallics During Secondary Creep
190
Contents ix
9.2.3
Primary Creep
in
FL
Microstructures
197
9.2.4
Tei
tiary
Creep in
FL
Microstructures
199
9.3
Iron
Aluminides 199
9.3.1
Introduction
199
9.3.2
Anomalous Yield Point Phenomenon
201
9.3.3
Creep Mechanisms
204
9.3.4
Strengthening Mechanisms
206
9.4
Nickel Aluminides
207
9.4.1
Ni3Al
207
9.4.2
NiAl
217
10.
Creep Fracture
221
10.1
Background
223
10.2
Cavity Nucleation
225
10.2.1
Vacancy Accumulation
226
10.2.2
Grain-Boundary Sliding
228
10.2.3
Dislocation Pile-ups
228
10.2.4
Location
231
10.3
Growth
231
10.3.1
Grain-Boundary Diffusion-Controlled Growth
231
10.3.2
Surface Diffusion-Controlled Growth
234
10.3.3
Grain-Boundary Sliding
235
10.3.4
Constrained Diffusional Cavity Growth
235
10.3.5
Plasticity
239
10.3.6
Coupled Diffusion and Plastic Growth
240
10.3.7
Creep Crack Growth
244
10.4
Other Considerations
246
11.
γ/γ
Nickel-Based Superalloys
247
11.1
Introduction
249
11.2
Low-Temperature Creep
252
11.3
Intermediate Temperature Creep
255
11.4
High Temperature Creep
257
11.4.1
Dislocations Networks
257
11.4.2
Rafting
258
References
261
Index
289
|
adam_txt |
Contents
Preface
v
List of Symbols and Abbreviations
xi
1.
Introduction
]
1.1
Description of Creep
3
1.2
Objectives
8
2.
Five-Power-Law Creep
9
2.1
Macroscopic Relationships
11
2.1.1
Activation Energy and Stress Exponents
11
2.1.2
Influence of the Elastic Modulus
17
2.1.3
Stacking Fault Energy and Summary
21
2.1.4
Natural Three-Power-Law
24
2.1.5
Substitutional Solid Solutions
28
2.2
Microstructural
Observations
28
2.2.1
Subgrain Size, Frank Network Dislocation Density,
Subgrain Misorientation Angle, and the Dislocation
Separation within the Subgrain Walls in Steady-State
Structures
28
2.2.2
Constant Structure Equations
37
2.2.3
Primary Creep
Microstructures
43
2.2.4
Creep Transient Experiments
49
2.2.5
Internal Stress
51
2.3
Rate-Controlling Mechanisms
61
2.3.1
Introduction
61
2.3.2
Dislocation
Microstructure
and the Rate-Controlling
Mechanism
72
2.3.3
In situ and
Microstructure-Manipulation
Experiments
76
2.3.4
Additional Comments on Network Strengthening
76
2.4
Other Effects on Five-Power-Law Creep
82
2.4.1
Large Strain Creep Deformation and Texture Effects
82
2.4.2
Effect of Grain Size
86
2.4.3
Impurity and Small Quantities of Strengthening Solutes
89
2.4.4
Sigmoidal Creep
92
3.
Diffusional Creep
95
4.
Harper-Dorn Creep
103
4.1
Introduction
105
4.2
Theories of Harper-Dorn Creep
108
viii
Fundamentals of Creep in Metals and Alloys
A3
More Recent Developments
115
4.4
Other Materials for which Harper-Dorn has been Suggested
118
5.
Three-Power-Law Viscous Glide Creep
123
6.
Superplasticity
135
6.1
Introduction
137
6.2
Characteristics of Fine Structure Superplasticity
137
6.3
Microstructure
of Fine Structure
Superplastic
Materials
141
6.3.1
Grain Size and Shape
141
6.3.2
Presence of a Second Phase
141
6.3.3
Nature and Properties of Grain Boundaries
141
6.4
Texture Studies in Superplasticity
142
6.5
High Strain-Rate Superplasticity
142
6.5.1
High Strain-Rate Superplasticity in Metal-Matrix
Composites
143
6.5.2
High Strain-Rate Superplasticity in Mechanically
Alloyed Materials
148
6.6
Superplasticity in
Nano
and Submicrocrystalline Materials
149
7.
Recrystallization
153
7.1
Introduction
155
7.2
Discontinuous Dynamic Recrystallization (DRX)
157
7.3
Geometric Dynamic Recrystallization
158
7.4
Particle-Stimulated Nucleation (PSN)
159
7.5
Continuous Reactions
159
8.
Creep Behavior of Particle-Strengthened Alloys
161
8.1
Introduction
163
8.2
Small Volume-Fraction Particles that are Coherent and
Incoherent with the Matrix with Small Aspect Ratios
163
8.2.1
Introduction and Theory
163
8.2.2
Local and General Climb of Dislocations over Obstacles
167
8.2.3
Detachment Model
170
8.2.4
Constitutive Relationships
173
8.2.5
Microstructural
Effects
177
8.2.6
Coherent Particles
180
9.
Creep of Intermetallics
183
9.1
Introduction
185
9.2
Titanium Aluminides
187
9.2.1
Introduction
187
9.2.2
Rate-Controlling Creep Mechanisms in FL TiAl
Intermetallics During "Secondary" Creep
190
Contents ix
9.2.3
Primary Creep
in
FL
Microstructures
197
9.2.4
Tei
tiary
Creep in
FL
Microstructures
199
9.3
Iron
Aluminides 199
9.3.1
Introduction
199
9.3.2
Anomalous Yield Point Phenomenon
201
9.3.3
Creep Mechanisms
204
9.3.4
Strengthening Mechanisms
206
9.4
Nickel Aluminides
207
9.4.1
Ni3Al
207
9.4.2
NiAl
217
10.
Creep Fracture
221
10.1
Background
223
10.2
Cavity Nucleation
225
10.2.1
Vacancy Accumulation
226
10.2.2
Grain-Boundary Sliding
228
10.2.3
Dislocation Pile-ups
228
10.2.4
Location
231
10.3
Growth
231
10.3.1
Grain-Boundary Diffusion-Controlled Growth
231
10.3.2
Surface Diffusion-Controlled Growth
234
10.3.3
Grain-Boundary Sliding
235
10.3.4
Constrained Diffusional Cavity Growth
235
10.3.5
Plasticity
239
10.3.6
Coupled Diffusion and Plastic Growth
240
10.3.7
Creep Crack Growth
244
10.4
Other Considerations
246
11.
γ/γ'
Nickel-Based Superalloys
247
11.1
Introduction
249
11.2
Low-Temperature Creep
252
11.3
Intermediate Temperature Creep
255
11.4
High Temperature Creep
257
11.4.1
Dislocations Networks
257
11.4.2
Rafting
258
References
261
Index
289 |
any_adam_object | 1 |
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discipline | Physik Werkstoffwissenschaften / Fertigungstechnik |
discipline_str_mv | Physik Werkstoffwissenschaften / Fertigungstechnik |
edition | 2. ed. |
format | Book |
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illustrated | Illustrated |
index_date | 2024-07-02T22:59:42Z |
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institution | BVB |
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physical | XV, 295 S. Ill., graph. Darst. |
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publisher | Elsevier |
record_format | marc |
spelling | Kassner, Michael E. Verfasser aut Fundamentals of creep in metals and alloys Michael E. Kassner 2. ed. Amsterdam [u.a.] Elsevier 2009 XV, 295 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Metals / Creep Metals / Plastic properties Alloys / Creep Alloys Creep Metals Creep Metals Plastic properties Legierung (DE-588)4035035-6 gnd rswk-swf Metall (DE-588)4038860-8 gnd rswk-swf Kriechen (DE-588)4131134-6 gnd rswk-swf Metall (DE-588)4038860-8 s Kriechen (DE-588)4131134-6 s DE-604 Legierung (DE-588)4035035-6 s Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016992710&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Kassner, Michael E. Fundamentals of creep in metals and alloys Metals / Creep Metals / Plastic properties Alloys / Creep Alloys Creep Metals Creep Metals Plastic properties Legierung (DE-588)4035035-6 gnd Metall (DE-588)4038860-8 gnd Kriechen (DE-588)4131134-6 gnd |
subject_GND | (DE-588)4035035-6 (DE-588)4038860-8 (DE-588)4131134-6 |
title | Fundamentals of creep in metals and alloys |
title_auth | Fundamentals of creep in metals and alloys |
title_exact_search | Fundamentals of creep in metals and alloys |
title_exact_search_txtP | Fundamentals of creep in metals and alloys |
title_full | Fundamentals of creep in metals and alloys Michael E. Kassner |
title_fullStr | Fundamentals of creep in metals and alloys Michael E. Kassner |
title_full_unstemmed | Fundamentals of creep in metals and alloys Michael E. Kassner |
title_short | Fundamentals of creep in metals and alloys |
title_sort | fundamentals of creep in metals and alloys |
topic | Metals / Creep Metals / Plastic properties Alloys / Creep Alloys Creep Metals Creep Metals Plastic properties Legierung (DE-588)4035035-6 gnd Metall (DE-588)4038860-8 gnd Kriechen (DE-588)4131134-6 gnd |
topic_facet | Metals / Creep Metals / Plastic properties Alloys / Creep Alloys Creep Metals Creep Metals Plastic properties Legierung Metall Kriechen |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016992710&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
work_keys_str_mv | AT kassnermichaele fundamentalsofcreepinmetalsandalloys |