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Materials science and design for engineers /
The uniqueness of the title of this book, Materials Science and Design for Engineers, already indicates that the authors - professionals having over 30 years of experience in the fields of materials science and engineering - are here tackling the rarely-discussed topic of the science of materials as...
| Clasificación: | Libro Electrónico |
|---|---|
| Autores principales: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Zurich-Durnten, Switzerland ; Enfield, New Hampshire :
Trans Tech Publications,
[2012]
|
| Colección: | Materials science foundations ;
v. 74. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Materials Science and Design for Engineers; About the Authors; Preface; Contents in Brief; Table of Contents; Table of Contents; Part One: Fundamentals of Materials Science & Engineering; Chapter 1: Introduction; WHY STUDY MATERIALS SCIENCE AND DESIGN?; WHAT PROPERTIES DETERMINE PERFORMANCE OF A MATERIAL?; WHAT CHOICES ARE AVAILABLE IN MATERIALS?; WHAT ARE RECENT ADVANCES IN MATERIALS SCIENCE AND DESIGN?; WHAT IS THE IMPORTANCE OF MATERIALS IN TODAY'S SOCIETY?; Summary; Additional Information. Questions and Problems; Chapter 2: Atomic Bonding and Structure of Materials.
- Materials Selection and Design ProblemsHOW ARE ATOMS ARRANGED IN METALS AND MATERIALS?; HOW ARE CRYSTALLOGRAPHIC SYSTEMS IMPORTANT IN THE REAL WORLD?; HOW ARE CRYSTALS PROPERTIES DETERMINED?; HOW ARE CRYSTALS FORMED IN METALS?; Summary; Additional Information. Questions and Problems; Materials Selection and Design Problems; Chapter 3: Crystal Imperfections, Deformation and Metal Forming; WHAT IMPERFECTIONS EXIST IN REAL CRYSTALS?; HOW DO DISLOCATIONS INFLUENCE PLASTIC DEFORMATION?; WHY ARE BCC AND FCC METALS DUCTILE WHEREAS HCP METALS ARE NOT?; HOW CAN WE WORK WITH METALS?; Summary.
- Additional InformationQuestions and Problems; Materials Selection and Design Problems; Chapter 4: Diffusion and Kinetics of Materials; WHAT IS KINETICS OF MATERIALS AND WHY IS IT IMPORTANT?; HOW DO ATOMIC MOVEMENTS RESULT IN DIFFUSION?; WHAT FACTORS AFFECT DIFFUSION?; WHAT RULES GOVERN DIFFUSION?; WHAT EXAMPLES OF INDUSTRIAL APPLICATIONS of DIFFUSION AND ITS KINETICS CAN BE IDENTIFIED?; Summary; Additional Information. Questions and Problems.; Materials Selection and Design Problems; Part Two: Physical & Mechanical Metallurgy; Chapter 5: Microstructural Characterization and Design.
- WHAT ARE SOLID-SOLUTIONS, PHASES, & MICROCONSTITUENTS?WHAT IS MICOSTRUCTURAL CHARACTERIZATION AND WHY IS IT IMPORTANT? HOW CAN WE PREPARE AND EXAMINE A METALLOGRAPHIC SAMPLE?; HOW CAN WE CHARACTERIZE MICROSTRUCTURE BY USING ELECTRON MICROSCOPES?; HOW CAN WE QUANTITATIVELY ANALYZE MICROSTRUCTURES?; HOW CAN WE DESIGN MICROSTRUCTURE FOR ENGINEERING APPLICATIONS?; Summary; Additional Information; Materials Selection and Design Problems; Chapter 6: Phase Diagrams and Alloy Systems; WHAT IS THE BASIS OF PHASE DIAGARMS?; HOW DO ALLOYS FORM?; WHAT ARE PHASE-TRANMSFORMATION REACTIONS?
- HOW CAN WE REPRESENT VARIOUS ALLOY SYSTEMS IN PHASE DIAGRAMS?HOW CAN WE REPRESENT ISOMORPHOUIS ALLOYS IN PHASE DIAGRAM?; HOW CAN WE REPRESENT EUTECTIC ALLOYS IN PHASE DIAGRAMS?; HOW CAN WE REPRESENT PERITECTIC ALLOYS IN PHASE DIAGRAMS? WHAT EXAMPLES OF COMPLEX PHASE DIAGARMS CAN WE IDENTIFY?; Summary; Additional Information. Questions and Problems; Materials Selection and Design Problems; Chapter 7: Designing Alloys Using a Controlled Strengthening Mechanism; HOW ARE ALLOYS STRENGTHENED AND TOUGHENED?; WHAT ARE EXAMPLES OF APPLICATIONS OF STRENGHENED ALLOYS?; Applications. Summary.