| Description |
1 online resource (180 pages) |
| Series |
Advanced Materials Science and Technology |
|
Advanced materials science and technology.
|
| Contents |
Cover; Half Title; Title Page; Copyright Page; Dedication; Table of Contents; Preface; Authors; 1: Introduction; 1.1 Materials and Properties; 1.2 Mechanical Properties and Microstructure; 1.3 Techniques for Mechanical Property Characterization; 1.4 Standards for Mechanical Testing; 1.5 Specimen Dimensions; 1.5.1 Tensile, Fatigue, and Creep Test Specimens; 1.5.2 Fracture Toughness Specimens; 1.6 Need for Specimen Miniaturization; 1.6.1 Alloy Design and Development; 1.6.2 Periodic Assessment and Life Extension of Engineering Components; 1.6.3 Weld Joints and Coatings; 1.6.4 Failure Analysis |
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1.6.5 Micro- and Nanodevices1.7 Miniaturized Specimen Testing-A Genesis; 1.8 Spin-Off Applications of Specimen Miniaturization; 1.9 Concluding Remarks; References; 2: Miniature Specimen Testing for Tensile and Plastic Flow Properties; 2.1 Introduction; 2.2 Tensile Tests with Subsize Specimens; 2.2.1 Influence of Thickness-to-Grain Size Ratio; 2.2.2 Ultra Subsize Specimen Designs; 2.2.3 Challenges in Subsize Tensile Testing; 2.2.3.1 Specimen Machining and Gripping; 2.2.3.2 Strain Measurements; 2.2.4 Micro- and Nanoscale Tensile Testing; 2.2.4.1 Actuation and Force/Displacement Measurement |
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2.3 Shear Punch Test2.3.1 Experimental Methods; 2.3.2 Analysis of Load-Displacement Curve; 2.3.3 Effect of Specimen Thickness and Clearance Zone; 2.3.4 Tensile-Shear Strength Correlations; 2.3.5 Ductility from Shear Punch Test; 2.4 Ball-Indentation Technique; 2.4.1 Flow Stress from Indentation; 2.4.2 Strain Definition; 2.4.3 Cyclic Indentation Tests; 2.4.4 Yield Strength from Indentation; 2.4.5 Contact Area and Pileup/Sink-In Phenomena; 2.4.6 Numerical Studies on Ball Indentation; 2.4.6.1 Machine Compliance; 2.4.6.2 Friction Effects; 2.4.6.3 Analysis of Pileup/Sink-In |
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2.4.6.4 Numerical Methods for Stress-Strain Evaluation2.5 Small Punch Test; 2.5.1 Deformation Regimes in Small Punch Tests; 2.5.2 Correlation with Tensile Properties; 2.5.3 Numerical Studies; 2.6 Concluding Remarks; References; 3: Miniature Specimens for Fatigue and Fracture Properties; 3.1 Subsize Charpy Specimen Impact Testing; 3.1.1 Energy Correlation; 3.1.2 Transition Temperature Correlation; 3.1.3 Scaling of Instrumented Impact Test Parameters; 3.1.4 Challenges in Subsize Impact Testing; 3.2 Fracture Toughness KIC/JIC with Subsize Specimens; 3.2.1 Toughness in Transition Regime |
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3.3 Specimen Reconstitution Methods3.4 Fatigue and Fatigue Crack Growth Studies Using Subsize Specimens; 3.4.1 Fatigue Crack Growth Studies; 3.5 Fracture Toughness from Small Punch Technique; 3.5.1 Ductile-Brittle Transition from Small Punch; 3.5.2 Toughness-Lower and Upper Shelf; 3.5.3 Small Punch Using Notched Specimen; 3.6 Fracture Toughness from Indentation Techniques; 3.6.1 Indentation Energy to Fracture; 3.6.2 Continuum Damage Mechanics Approach; 3.7 Concluding Remarks; References; 4: Critical Issues in Small Specimen Testing; 4.1 Introduction |
| Notes |
4.2 Specimen Size Effects and Their Influence on Mechanical Behavior |
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Print version record |
| Subject |
Microchemistry.
|
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Materials -- Testing.
|
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Materials -- Microscopy.
|
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TECHNOLOGY & ENGINEERING -- Material Science.
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Materials -- Microscopy
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Materials -- Testing
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Microchemistry
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| Form |
Electronic book
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| Author |
Kasiviswanathan, K. V
|
|
Raj, Baldev
|
| ISBN |
9781482263923 |
|
1482263920 |
|
9781315354859 |
|
1315354853 |
|
9781315335797 |
|
1315335794 |
|
9781315372051 |
|
1315372053 |
|
