Notice bibliographique
- Notice
Type(s) de contenu et mode(s) de consultation : Texte noté : électronique
Auteur(s) : Gupta, K. M.
Titre(s) : Advanced electrical and electronics materials [Texte électronique] : processes and applications / K.M. Gupta and Nishu Gupta
Publication : Hoboken : Wiley, 2015
Description matérielle : 1 online resource (1140 pages)
Collection : Advanced material series
Note(s) : Print version record.
This comprehensive and unique book is intended to cover the vast and fast-growing
field of electrical and electronic materials and their engineering in accordance with
modern developments. Basic and pre-requisite information has been included for easy
transition to more complex topics. Latest developments in various fields of materials
and their sciences/engineering, processing and applications have been included. Latest
topics like PLZT, vacuum as insulator, fiber-optics, high temperature superconductors,
smart materials, ferromagnetic semiconductors etc. are covered
Autre(s) auteur(s) : Gupta, Nishu (1982-....). Fonction indéterminée
Sujet(s) : Électronique -- Matériaux
Condensateurs électriques
Résistances électriques
Indice(s) Dewey :
621.381 (23e éd.) = Électronique (technologie)
Identifiants, prix et caractéristiques : ISBN 9781118998564
Identifiant de la notice : ark:/12148/cb44655909w
Notice n° :
FRBNF44655909
(notice reprise d'un réservoir extérieur)
Table des matières : Cover; Half Title page; Title page; Copyright page; Dedication; Preface; Acknowledgement;
About the Authors; Abbreviations; Chapter 1: General Introduction to Electrical and
Electronic Materials; 1.1 Importance of Materials; 1.2 Importance of Electrical and
Electronic Materials; 1.3 Classification of Electrical and Electronic Materials; 1.4
Scope of Electrical and Electronic Materials; 1.5 Requirements of Engineering Materials;
1.6 Operational Requirements of Electrical and Electronic Materials; 1.7 Classification
of Solids on the Basis of Energy Gap.
1.8 Glimpse of Some Electronic Products, Their Working Principles and Choicest Materials1.9
Different Types of Engineering Materials; 1.10 Different Levels of Materials Structure;
1.11 Spintronics (The Electronics of Tomorrow) and Spintronic Materials; 1.12 Ferromagnetic
Semiconductor; 1.13 Left-Handed (LH) Materials; 1.14 Solved Examples; Chapter 2: Atomic
Models, Bonding in Solids, Crystal Geometry, and Miller Indices; 2.1 Atomic Models;
2.2 Bohr's Quantum Atomic Model; 2.3 Modern Concept of Atomic Model; 2.4 Electron
Configuration; 2.5 Meaning of Chemical (or Atomic) Bonding.
2.6 Classification of Chemical Bonds2.7 Ionic Bond; 2.8 Covalent Bonds; 2.9 Monocrystalline
and Polycrystalline Crystal Structures; 2.10 Space Lattice; 2.11 Basis; 2.12 Unit
Cell and Crystal; 2.13 Bravais Crystal System; 2.14 Primitive and Non-Primitive Unit
Cells; 2.15 Coordination Number; 2.16 Atomic Packing Fraction; 2.17 Calculation of
Density (or Bulk Density); 2.18 Miller Indices; 2.19 Interplaner Spacing; 2.20 Linear
Density; 2.21 Planer Density; Chapter 3: Solid Structures, Characterization of Materials,
Crystal Imperfections, and Mechanical Properties of Materials.
3.1 Crystallography3.2 Crystalline and Non-Crystalline Structures; 3.3 Hexagonally
Closed Packed Structure (HCP); 3.4 VOIDS; 3.5 Covalent Solids; 3.6 Bragg's Law of
X-Rays Diffraction; 3.7 Structure Determination; 3.8 Microscopy; 3.9 Different Types
of Metallurgical Microscopes and Their Features; 3.10 Working Principle of Electron
Microscope; 3.11 Ideal and Real Crystals, and Imperfections; 3.12 Classification of
Imperfections; 3.13 Point Imperfections; 3.14 Effects of Point Imperfections; 3.15
Line Imperfections; 3.16 Features of Edge Dislocation; 3.17 Screw Dislocation.
3.18 Characteristics of Dislocations3.19 Sources of Dislocations, Their Effects and
Remedies; 3.20 Grain Boundary; 3.21 Twin or Twinning; 3.22 Mechanical Properties of
Metals; Chapter 4: Conductive Materials: Electron Theories, Properties and Behaviour;
4.1 Electrons and Their Role in Conductivity; 4.2 Electron Theories of Solids; 4.3
Free Electron Theory; 4.4 Energy Band Theory; 4.5 Brillouin Zone Theory; 4.6 Conductors;
4.7 Factors Affecting Conductivity (and Resistivity) of Metals; 4.8 Thermal Conductivity;
4.9 Heating Effect of Current; 4.10 Thermoelectric Effect (or Thermoelectricity).