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Intermetallic Compounds, Volume 3, Structural Applications of

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This volume is one of four, each of which consists of reprinted chapters from the highly acclaimed, comprehensive two-volume set Intermetallic Compounds: Principles and Practice, published in 1995. In some cases the author or authors have added a brief addendum to bring their chapter up to date and in other cases more recent references have been added. Chapters have been selected and grouped in subject areas to provide more easily accessible and user-friendly volumes for individual researchers. The other titles in this four-volume set are: Crystal Structures of Intermetallic Compounds Basic Mechanical Properties and Lattice Defects of Intermetallic Compounds Magnetic, Electrical and Optical Properties and Applications of Intermetallic Compounds

Author(s): J. H. Westbrook, R. L. Fleischer
Edition: Volume 3
Publisher: Wiley
Year: 2000

Language: English
Pages: 292
Tags: Физика;Физика твердого тела;Физика металлов;

Front Matter......Page 1
Contributors......Page 4
Preface to the 1995 Edition......Page 6
Preface to Reprint Volumes......Page 8
Acronyms......Page 9
Crystal Structure Nomenclature......Page 14
Index......Page 0
10.1 Introduction......Page 18
10.2 Structural Silicides......Page 20
10.3 Silicides as High-Temperature Coatings......Page 34
10.4 Silicides in the Electronics Industry......Page 36
10.6 References......Page 40
3.1 Introduction......Page 43
3.2 Physical and Mechanical Properties of NiAl......Page 44
3.3 Design of NiAl Airfoils......Page 55
3.4 Processing, Fabrication, and Machining......Page 57
3.7 References......Page 59
13.1 Introduction......Page 63
13.2 Intermetallic Composite Classes......Page 65
13.3 Composite Systems......Page 66
13.4 Composite Development......Page 72
13.5 Processing......Page 73
13.7 Acknowledgements......Page 74
13.8 References......Page 75
Addendum......Page 77
6.2 Background......Page 78
6.3 Processing and microstructure of Zr3Al......Page 79
6.5 Mechanical Properties......Page 81
6.6 Comparison with Zircaloy-2 and Zr-2.5% Nb......Page 89
6.9 References......Page 90
7.1 Introduction......Page 92
7.2 Al3Ti with the D022 Structure......Page 93
11.2 Basic Studies......Page 101
11.3 Screening High Melting-Temperature Compounds......Page 105
11.4 Systematics, Trends, and Conclusions......Page 116
11.6 References......Page 119
Addendum......Page 120
9.2 Phase Stability and Defect Structures......Page 122
9.3 Processing......Page 124
9.4 Mechanical Properties......Page 125
9.5 Oxidation and Corrosion Resistance......Page 130
9.8 References......Page 131
A......Page 133
B......Page 138
C......Page 139
D......Page 143
E......Page 146
F......Page 147
G......Page 149
H......Page 150
I......Page 151
K......Page 152
L......Page 153
M......Page 154
N......Page 156
O......Page 159
P......Page 160
R......Page 164
S......Page 165
T......Page 169
W......Page 173
Y......Page 174
Z......Page 175
Table of Contents......Page 177
2.1 Introduction......Page 182
2.2 Planar Faults, Superlattice Dislocations and Flow Properties......Page 183
2.3 Intergranular Fracture and Boron Effect in Polycrystalline Ni3Al......Page 192
2.4 Environmental Embrittlement at Elevated Temperature......Page 195
12.1 Introduction......Page 200
12.2 Dislocation-Particle Interactions: Statistics......Page 201
12.3 Dislocation Line Tension......Page 206
12.4 Mechanisms of Precipitation Strengthening......Page 209
12.5 Procedures for Analyzing and Modeling Experimental Data......Page 212
8.1 Introduction......Page 214
8.2 Aluminum-Transition Metal Compounds......Page 215
8.3 Al3 (ZrxLi1-x) Intermetallics......Page 227
8.4 Intermetallic Phase Equilibrium Predictions......Page 231
8.5 Properties and Applications......Page 232
8.7 Acknowledgements......Page 234
8.8 References......Page 235
1.1 Introduction......Page 238
1.2 Alloying......Page 243
1.3 gamma' Morphology......Page 244
1.4 Deformation......Page 248
1.7 References......Page 249
Addendum......Page 250
4.2 Basic Characteristics of gamma-Based Materials......Page 251
4.3 Microstructure Formation......Page 253
4.4 Microstructural Dependence of Properties......Page 255
4.5 Alloying Modifications......Page 258
4.6 Processing to Useful Forms......Page 261
4.7 Applications......Page 265
4.9 References......Page 266
5.1 Introduction......Page 269
5.2 Crystal Structures, Phase Equilibria and Phase Transformations......Page 272
5.3 Deformation Behavior of the alpha2, O, and B2 Phases......Page 279
5.4 Tensile Behavior of alpha2 Alloys......Page 284