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Material science /

About the Book: The book has been designed to cover all relevant topics in B.E. (Mechanical/Metallurgy/Material Science/Production Engineering), M. Sc. (Material Science), B. Sc. (Honours), M. Sc. (Physics), M. Sc. (Chemistry), AMIE and Diploma students. Students appearing for GATE, UPSC, NET, SLET...

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Detalles Bibliográficos
Clasificación:	Libro Electrónico
Autor principal:	Kakani, S. L.
Otros Autores:	Kakani, Amit
Formato:	Electrónico eBook
Idioma:	Inglés
Publicado:	New Delhi : New Age International, ©2004.
Temas:	Materials science. Science des matériaux. TECHNOLOGY & ENGINEERING > Material Science. Materials science
Acceso en línea:	Texto completo

Tabla de Contenidos:

Chapter 1. Classification and Selection of Materials
1. Introduction
2. Engineering Requirements
3. Classification of Engineering Materials
4. Organic, Inorganic and Biological Materials
5. Semiconductors
6. Biomaterials
7.(a) Current Trends and Advances in Materials
7 (b) Advanced Materials
7 (c) Smart Materials (Materials of the Future)
7 (d) Nanostructured Materials and Nanotechnology
7 (e) Quantum Dots (QDS)
7 (f) Spintronics
7 (g) Fermionic Condensate Matter
8. Level of Material Structure Examination and Observation
9. Material Structure
10. Engineering Metallurgy
11. Selection of Materials
Suggested Readings
Review Questions
Problems
Short Question-Answers
Objective Questions
Chapter 2. Atomic Structure and Electronic Configuration
1. Introduction
2. The Electron
3. Protons
4. Neutrons
5. Atomic Number (z)
6. Atomic Weight and Mass Number
7. Isotopes
8. Isobars
9. Isotones
10. Avogadro's Number (N)
11. Atomic Nucleus
12. Atomic Models
13. Vector Atom Model
14. Quantum Numbers
15. Pauli Exclusion Principle and Electronic Configuration of Atoms
16. Wave Mechanical Picture of the Atom
17. Periodic Table
Suggested Readings
Review Questions
Problems
Short Questions
Objective Questions
Short Question-Answers
Chapter 3. Crystal Geometry, Structure and Defects
1. Introduction
2. Crystals
3. Single Crystal
4. Whiskers
5. Lattice Points and Space Lattice
5.(A) Basis
6. Unit Cell
7. Primitive Cell
8. Crystal Classes
9. Crystal Systems
10. Crystal Structure for Metallic Elements
11. Atomic Radius
12. Density of Crystal
13. Directions, Lattice Planes and Miller Indices
14. Interplanar Spacings
14 (A) Angle Between Two Planes or Directions
15. Representation of Crystal Planes in a Cubic Unit Cell
16. Sketching The Plane From the Given Miller Indices
17. Common Planes in a Simple Cubic Structure
18. Co-ordination Number
19. Defects or Imperfections in Crystals
20. Point Imperfections
21. Line Defects of Dislocations
22. Surface and Grain Boundary Defects
23. Volume Imperfections
24. Liquid Crystals
25. Anisotropy
26. Frank-Read Source
27. Theory of Dislocations Salient Features
28. Determination of Crystal Structure by X-Ray Diffraction
29. Bragg's X-Ray Spectrometer
30. Reciprocal Lattice
31. Methods of Determining Crystal Structure
32. Electron and Neutron Diffraction
33. Crystal Growth
Suggested Readings
Review Questions
Problems
Objective Questions
Short Questions Answers
Chapter 4. Bonds in Solids
Chapter 5. Electron Theory of Metals
Chapter 6. Photoelectric Effect
Chapter 7. Diffusion in Solids
Chapter 8. Mechanical Properties of Materials and Mechanical Tests
Chapter 9. Alloy Systems, Phase Diagrams and Phase Transformations
Chapter 10. Heat Treatment
Chapter 11. Deformation of Materials
Chapter 12. Oxidation and Corrosion
Chapter 13. Thermal and Optical Properties of Materials
Chapter 14. Electrical and Magnetic Properties of Materials
Chapter 15. Semiconductors
Chapter 16. Superconductivity and Superconducting Materials
Chapter 17. Organic Materials : Polymers and Elastomers
Chapter 18. Composites
Chapter 19. Nanostructured Materials.

Material science /

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