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Structural Applications of Mechanical Alloying - Froes, F.H. & DeBarbadillo, J.J. -Editors
(*)
Froes, F.H. & DeBarbadillo, J.J. -Editors:
Structural Applications of Mechanical Alloying - Taschenbuch

1990, ISBN: c605f5dbc959aafd8c5b57acc9ad5af0

Gebundene Ausgabe, ID: 873387580

Wiley India Pvt. Ltd, 2017. Softcover. New. 20 x 25 cm. Part 1 Fundamentals Chapter 1: Mechanical Engineering design in Broad Perspective 1.1 An Overview of the Subject 1.2 Safety Considerations 1.3 Ecological Considerations 1.4 Societal Considerations, 1.5 Overall Design Considerations 1.6 Systems of Units 1.7 Methodology for Solving Machine Component Problems 1.8 Work and Energy 1.9 Power 1.10 Conservation of Energy Chapter 2: Load Analysis 2.1 Introduction 2.2 Equilibrium Equations and Free-Body Diagrams 2.3 Beam Loading 2.4 Locating Critical Sections-Force Flow Concept 2.5 Load Division Between Redundant Supports 2.6 Force Flow Concept Applied to Redundant Ductile Structures Chapter 3: Materials 3.1 Introduction 3.2 The Static Tensile Test-"Engineering" Stress-Strain Relationships 3.3 Implications of the "Engineering" Stress-Strain Curve 3.4 The Static Tensile Test-"True" Stress-Strain Relationships 3.5 Energy-Absorbing Capacity 3.6 Estimating Strength Properties from Penetration Hardness Tests 3.7 Use of "Handbook" Data for Material Strength Properties 3.8 Machinability 3.9 Cast Iron 3.10 Steel 3.11 Nonferrous Alloys 3.12 Plastics, and Composites 3.13 Material Selection Charts 3.14 Engineering Material Selection Process Chapter 4: Static Body Stresses 4.1 Introduction 4.2 Axial Loading 4.3 Direct Shear Loading 4.4 Torsional Loading 4.5 Pure Bending Loading, Straight Beams 4.6 Pure Bending Loading, Curved Beams 4.7 Transverse Shear Loading in Beams 4.8 Induced Stresses, Mohr Circle Representation 4.9 Combined Stresses-Mohr Circle Representation 4.10 Stress Equations Related to Mohr`s Circle 4.11 Three-Dimensional Stresses 4.12 Stress Concentration Factor, Kt 4.13 Importance of Stress Concentration 4.14 Residual Stresses Caused by Yielding-Axial Loading 4.15 Residual Stresses Caused by Yielding-Bending and Torsional Loading 4.16 Thermal Stresses 4.17 Importance of Residual Stresses Chapter 5: Elastic Strain, Deflection and Stability 5.1 Introduction 5.2 Strain Definition, Measurement and Mohr Circle Representation 5.3 Analysis of Strain-Equiangular Rosettes 5.4 Analysis of Strain-Rectangular Rosettes 5.5 Elastic Stress-Strain Relationships and Three-Dimensional Mohr Circles 5.6 Deflection and Spring Rate-Simple Cases 5.7 Beam Deflection 5.8 Determining Elastic Deflections by Castigliano`s Method 5.9 Redundant Reactions by Castigliano`s Method 5.10 Euler Column Buckling-Elastic Instability 5.11 Effective Column Length for Various End Conditions 5.12 Column Design Equations-J. B. Johnson Parabola 5.13 Eccentric Column Loading-the Secant Formula 5.14 Equivalent Column Stresses 5.15 Other Types of Buckling 5.16 Finite Element Analysis Chapter 6: Failure Theories, Safety Factors and Reliability 6.1 Introduction 6.2 Types of Failure 6.3 Fracture Mechanics-Basic Concepts 6.4 Fracture Mechanics-Applications 6.5 The "Theory" of Static Failure Theories 6.6 Maximum-Normal-Stress Theory 6.7 Maximum-Shear-Stress Theory 6.8 Maximum-Distortion-Energy Theory (Maximum- Octahedral-Shear-Stress Theory 6.9 Modified Mohr Theory 6.10 Selection and Use of Failure Theories 6.11 Safety Factors-Concept and Definition 6.12 Safety Factors-Selection of a Numerical Value 6.13 Reliability 6.14 Normal Distributions 6.15 Interference Theory of Reliability Prediction Chapter 7: Impact 7.1 Introduction 7.2 Stress and Deflection Caused by Linear and Bending Impact 7.3 Stress and Deflection Caused by Torsional Impact 7.4 Effect of Stress Raisers on Impact Strength C Printed Pages: 909., Wiley India Pvt. Ltd, 2017, New Age International (P) Limited, 2010. First edition. Softcover. New. he Materials Science of Semiconductors serves as a general textbook on semiconductors, and discusses semiconductors in detail, from the fundamental basis for their electronic structure to engineering of alloys and the effects of defects. Written for graduate and advanced undergraduate students in the hard sciences, this book covers the materials science of semiconductors rather than focusing on electronic devices as a primary topic. The Materials Science of Semiconductors is focused on classical concepts of materials physics (including band theory), alloy design, defects and their physics, organic electronic materials, amorphous semiconductors, and thin film growth methods. This textbook includes a discussion of organic materials concepts and applications for light emitting and switching devices, and also covers the major methods for processing semiconductors from Czochralsky growth to atomic-layer deposition. Unlike other books on semiconductors, this book discusses how band structures are developed and gives a detailed calculation technique based on the LCAO method, without any significant reliance on a background in quantum mechanics. The Materials Science of Semiconductors is dedicated to presenting fundamental concepts in a manner that is accessible to students without a background in physics or quantum mechanics without a background in physics or quantum mechanics. Each chapter includes current applications, particularly in optoelectronics, along with recommended readings and homework problems. Printed Pages: 640., New Age International (P) Limited, 2010, New Age International (P) Limited, 2010. First edition. Softcover. New. he Materials Science of Semiconductors serves as a general textbook on semiconductors, and discusses semiconductors in detail, from the fundamental basis for their electronic structure to engineering of alloys and the effects of defects. Written for graduate and advanced undergraduate students in the hard sciences, this book covers the materials science of semiconductors rather than focusing on electronic devices as a primary topic. The Materials Science of Semiconductors is focused on classical concepts of materials physics (including band theory), alloy design, defects and their physics, organic electronic materials, amorphous semiconductors, and thin film growth methods. This textbook includes a discussion of organic materials concepts and applications for light emitting and switching devices, and also covers the major methods for processing semiconductors from Czochralsky growth to atomic-layer deposition. Unlike other books on semiconductors, this book discusses how band structures are developed and gives a detailed calculation technique based on the LCAO method, without any significant reliance on a background in quantum mechanics. The Materials Science of Semiconductors is dedicated to presenting fundamental concepts in a manner that is accessible to students without a background in physics or quantum mechanics without a background in physics or quantum mechanics. Each chapter includes current applications, particularly in optoelectronics, along with recommended readings and homework problems. Printed Pages: 640., New Age International (P) Limited, 2010, Springer, 1974-07-19. Hardcover. Good. VIII-554 p. : ill. ; 25 cm. Hardcover. No dust jacket, as issued. Good binding and cover. Clean, unmarked pages. Sticker mark on cover. Bell Labs library stamps (Murray Hill). Reine und angewandte Metallkunde in Einzeldarstellungen, Bd. 24. List of Contents.- Theory.- Electron theoretical fundamentals in order disorder transformations of metallic alloys.- Electronic structure and nature of ordering in alloys of transition elements.- Symmetry, pair interatomic interaction and electronic states in ordering alloys.- The theory of order-disorder transformations in alloys with several phase-transition points.- Static concentration waves in the theory of order-disorder phenomena in substitutional and interstitial solid solutions.- Heterogeneity of the reactions of formation of compounds with ordered structures from solid solutions.- Kinetics of order-disorder.- Experiment.- The microstructure of order-disorder transitions.- On the long-period ordered alloys.- Order-disorder transformations of interstitial solutes in transition metals of IV and V groups.- Supplement: Ordering of oxygen in vanadium.- Modern problems of short-range order.- On structural interpretation of short range order.- Atomic order-disorder information from magnetic data.- Properties and Applications.- The effect of atomic order on the mechanical properties of alloys with emphasis on FeCo.- Work-hardening of ordered alloys.- The influence of ordering on the engineering properties of two phase alloys Part I - Mechanical properties of ?' precipitation hardened nickel-base superalloys.- II - Ordering effects in directionally solidified eutectic alloys.- Applications of atomic ordering reactions.- APPENDIX: Titles of research papers presented at the Symposium Statistical thermodynamics of ordering.- Effects of electronic structure in ordering.- Development of the microstructures of ordered states.- Superlattice structures.- Effects of microstructures of ordered states on magnetic domain structures.- Kinetics of ordering.- Local order.- Effects of ordering on mechanical properties., Springer, 1974-07-19, Viva Books Private Limited, 2015. 2nd edition. Softcover. New. Description: This book is specially designed for the mechanical and production streams of B.E./B. Tech students. It is also a handy reference textbook for those interested in metallurgy. This book focuses on the fundamentals of physical metallurgy including crystal structure and imperfections, phase equilibria, phase transformations and heat treatment. Failure and corrosion properties of materials have been discussed in detail. A detailed discussion of magnetism, conductors and semiconductors is the asset of this book. The book also highlights the optical properties, diffusion, chemical bonding, non-conventional energy resources, ceramics and composites. Appendix I contains a collection of reference tables. Multiple-choice questions, short-answer-type questions, long-answer-type questions and numerical problems are provided in Appendix II of this book as exercise for students. Contents: Chapter 1: Solid State Chemistry• Crystallography • Unit Cell • Atomic Radius • Effective Number of Atoms • Atomic Packing Factor • Density of a Cubic Crystal • Fundamental Laws of Crystallography • Law of constancy of interfacial angle • Law of rationality of indices • Characteristics of Miller indices • Law of symmetry • Miller Indices and Interplanar Spacing • Interplanar spacing • Miller indices for HCP crystals • Bragg’s Law Chapter 2: Crystal Defects or Imperfections• Point Imperfections • Imperfection • Schottky defect • Frenkel defect • Non-stoichiometric defects • Metal excess defects • Metal deficiency defect • Impurity defects • Line Imperfections • Edge dislocation • Screw dislocation • Surface Imperfections • Driving Force for Extended Dislocation • Strain Hardening and tPN • Peierls - Nabarro stress (tPN) • Critically Resolved Shear Stress • Dislocation Generator: The Frank-Read Source • Cross-Slip • Slip Bands and Invariant Burgers Vector • Deformation or Mechanical Twinning Chapter 3: Chemical Bonding • Atom and Molecule • Atomic Spectrum • Filling up of Atomic Orbitals by Electrons • Matter Waves and Schrödinger Wave Equation • Uncertainty Principle from Schrödinger Wave Equation • Validity of Neil Böhr’s Theory • Concept of Molecular Orbital • Characteristic Features of MO Theory • Characteristic Features of Valence Bond (VB) Theory • Periodic Table • Chemical Bond • Ionic bond • Covalent bond • Coordinate or dative bond • Hydrogen bond • Bond due to intermolecular forces (van der Waals bond) • Metallic bond Chapter 4: Diffusion • Definition • Fick’s First Law • Kirkendall Effect • Fick’s Second Law • Applications of Fick’s Law • Growth of oxide layers • Carburizing of steel • Mechanisms of Diffusion • Volume Diffusion • Grain boundary Diffusion • Surface Diffusion • Coring • Factors Influencing Diffusion • Temperature • Concentration • Crystal structure • Impurities • Grain size • Interstitial Diffusion • Diffusion Process in Ionic Crystals Chapter 5: Magnetism • Definitions • Magnetic flux and dipoles • Flux density • Field intensity • Permeability • Intensity of magnetization • Susceptibility • Böhr magneton • Classification of Magnetic Materials • Diamagnetism • Characteristic features • Theory • Paramagnetism • Characteristic features • Theory • Limitations of Curie’s law • Weiss modification • Ferromagnetism • Characteristic features • Origin of ferromagnetism • Electronic theory • Domain wall theory • Magnetostatic energy • Magnetocrystalline anisotropy energy • Magnetostrictive energy • Anti-ferromagnetism • Characteristic features • Classification of Ferromagnetic Materials • Hysteresis loss • Soft magnetic materials • Beneficial Effects of addition of silicon to iron • Adverse Effects of excess addition of silicon to iron • Alloys • Hard magnetic materials • Eddy Current Loss • Iron Loss • Factors Influencing iron loss and permeability • Ferrimagnetism • Characteristic features • Mag Printed Pages: 576., Viva Books Private Limited, 2015, ASM International, Materials Park, Oh, 1990. HB-F/ no DJ; illustrations; graphs, charts throughout;., ASM International, Materials Park, Oh, 1990

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Structural Applications of Mechanical Alloying - Froes, F.H. & DeBarbadillo, J.J. -Editors
(*)
Froes, F.H. & DeBarbadillo, J.J. -Editors:
Structural Applications of Mechanical Alloying - gebrauchtes Buch

1990, ISBN: c605f5dbc959aafd8c5b57acc9ad5af0

ID: 51652013

ASM International, Materials Park, Oh, 1990. HB-F/ no DJ; illustrations; graphs, charts throughout;., ASM International, Materials Park, Oh, 1990

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Structural Applications of Mechanical Alloying - Froes, F.H. & Debarbadillo, J.J. -Editors
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Froes, F.H. & Debarbadillo, J.J. -Editors:
Structural Applications of Mechanical Alloying - gebunden oder broschiert

1990, ISBN: c605f5dbc959aafd8c5b57acc9ad5af0

ID: 8926102367

Science|Mathmatics|Aviation, HB-F/ no DJ; illustrations; graphs, charts throughout;, [PU: ASM International, Materials Park, Oh, 1990]

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Structural Applications of Mechanical Alloying - Froes, F.H. & DeBarbadillo, J.J. -Editors
(*)
Froes, F.H. & DeBarbadillo, J.J. -Editors:
Structural Applications of Mechanical Alloying - gebrauchtes Buch

1990, ISBN: c605f5dbc959aafd8c5b57acc9ad5af0

ID: 308259728

[PU: ASM International, Materials Park, Oh, 1990], AVIATION, HB-F/ no DJ; illustrations; graphs, charts throughout;

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Gebundene Ausgabe
Taschenbuch
Erscheinungsjahr: 1990
Herausgeber: ASM International, Materials Park, Oh, 1990

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