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1 - Fe group L12 and B2 structures
Pages 1-5 - Book chapterAbstract only
2 - Testing
Pages 7-84 - Book chapterAbstract only
3 - Testing in Fe-based DO3
Pages 85-126 - Book chapterAbstract only
4 - The effect of B
Pages 127-161 - Book chapterAbstract only
5 - The effect of B in the DO3 structures
Pages 163-171 - Book chapterAbstract only
6 - B2 structures testing
Pages 173-252 - Book chapterAbstract only
7 - The effect of boron on B2 compounds
Pages 253-270 - Book chapterAbstract only
8 - Mechanical properties of thin films in L12 (DO3) and B2 structures
Pages 271-284 - Book chapterAbstract only
9 - Dislocations in the Fe group L12 and DO3 alloys
Pages 285-335 - Book chapterAbstract only
10 - Dislocations and strength anomaly in B2 type crystals
Pages 337-375 - Book chapterAbstract only
11 - Time-dependent deformation creep: L12 and DO3 compounds
Pages 377-405 - Book chapterAbstract only
12 - Time-dependent deformation creep: B2 compounds
Pages 407-444 - Book chapterAbstract only
13 - Fatigue (cyclic deformation) in L12 and DO3
Pages 445-468 - Book chapterAbstract only
14 - Fatigue (cyclic deformation) in B2 compounds
Pages 469-488 - Book chapterAbstract only
15 - Fracture in L12 and DO3
Pages 489-516 - Book chapterAbstract only
16 - Fracture in B2 intermetallics
Pages 517-551 - Book chapterAbstract only
17 - Mechanical properties of L12 nanostructures
Pages 553-567 - Book chapterAbstract only
18 - Mechanical properties of B2 nanostructures
Pages 569-584 - Book chapterNo access
Index
Pages 585-605
About the book
Description
Basic Compounds for Superalloys: Mechanical Properties explores the mechanical properties of the iron group based intermetallic compounds that are the basis of super-alloys. Chapters explore tensile tests and compressive stress and hardness and provide detailed considerations that are devoted to time dependent deformation, namely creep and cyclic deformation. In addition, a discussion of the nano-crystalline L12 and B2 structures and their mechanical properties is included. Fracture and failure of these materials in both macro and nano-iron based compounds is also considered. This book is ideal for engineers, scientists and technical personnel who work in materials engineering, materials science, and mechanical and chemical engineering.
Basic Compounds for Superalloys: Mechanical Properties explores the mechanical properties of the iron group based intermetallic compounds that are the basis of super-alloys. Chapters explore tensile tests and compressive stress and hardness and provide detailed considerations that are devoted to time dependent deformation, namely creep and cyclic deformation. In addition, a discussion of the nano-crystalline L12 and B2 structures and their mechanical properties is included. Fracture and failure of these materials in both macro and nano-iron based compounds is also considered. This book is ideal for engineers, scientists and technical personnel who work in materials engineering, materials science, and mechanical and chemical engineering.
Key Features
- Provides an in-depth focus on the mechanical properties of Fe- superalloy materials
- Includes a discussion of the static, time dependent and cyclic deformation properties of macro- and nano materials
- Reviews how superalloy materials behave under a variety of ‘in-service’ environments and conditions
- Provides an in-depth focus on the mechanical properties of Fe- superalloy materials
- Includes a discussion of the static, time dependent and cyclic deformation properties of macro- and nano materials
- Reviews how superalloy materials behave under a variety of ‘in-service’ environments and conditions
Details
ISBN
978-0-12-816133-3
Language
English
Published
2018
Copyright
Copyright © 2018 Elsevier Inc. All rights reserved.
Imprint
Elsevier