Description |
1 online resource : illustrations (some color) |
Series |
Advances in Nanotechnology ; v. 3 |
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Advances in Nanotechnology
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Contents |
ADVANCES IN NANOTECHNOLOGY, VOLUME 3 -- ADVANCES IN NANOTECHNOLOGY, VOLUME 3 -- CONTENTS -- PREFACE -- CURRENT DIRECTIONS IN NANOMACHINING -- Abstract -- 1. Nanomachining -- 1.1. Basic Elements of Molecular Dynamics Modeling -- 1.1.1. Material Representation and Microstructure -- 1.1.2. Atomic Interaction -- 1.1.2.1. Pair Potentials -- 1.1.2.2. Many-Body Potentials -- 1.1.3. Systems Dynamics and Numerical Description -- 1.1.4. Boundary Conditions -- 1.2. Design and Requirements for State-of-the-Art MD Cutting ProcessSimulations |
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1.3. Capabilities of MD for Nanoscale Material Removal Process Analysis1.3.1. Analysis of Microstructure and Deformation -- 1.3.2. Obtaining Cutting Forces, Stress and Temperature -- 1.4. Advances and Recent Developments in Material Removal ProcessSimulation -- 1.4.1. Three-Dimensional Surface Machining Simulation -- 2. Micromachining -- 2.1.1. Definitions and Technological Possibilities -- 3.1.2. Main Applications of Micromachining -- 2.2. Microturning -- 2.2.1. Characteristic Features and Applications -- 2.2.2. Microturning Tools and Tooling Systems |
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2.2.3. Machine Tools for Microturning2.3 Microdrilling -- 2.3.1. Characteristic Features and Applications -- 2.3.2. Microdrills and Tooling Systems -- 2.3.3. Machine Tools for Microdrilling -- 2.4. Micromilling -- 2.4.1. Characteristic Features and Applications -- 2.4.2. Micromills and Tooling Systems -- 2.4.3. Machine Tools for Micromilling -- 2.5. Product Quality in Micromachining -- 2.5.1. Quality Challenges in Micromachining -- 2.5.2. Burr Formation in Micromachining Operations -- 2.5.3. Surface Quality Inspection of Micromachining Products |
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3. Application of Micro and Nanomachining3.1. Typical Machining Methods -- 3.1.1. Diamond Turning -- 3.2. Applications in Optical Manufacturing -- 3.2.1. Aspheric Lens -- 3.2.2. Fresnel Lens -- 3.2.3. Micro-structured Components -- 3.3. Semiconductor and Electronic Applications -- 3.3.1. Semiconductor Wafer Production -- 3.3.2. LSI Substrate Planarization -- 4. Conclusion -- Acknowledgements -- References -- BA(TI, ZR)O3 -- FUNCTIONAL MATERIALS:FROM NANOPOWDERS TO BULK CERAMICS -- Abstract -- 1. State of the Art for the BaTiO3-BaZrO3 System |
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2. Preparation and Characterization of Ba(Ti, Zr)O3Nanopowders: Influence of the Processing Methodon the Structural and Morphological Properties2.1. Synthesis -- 2.2. Formation Mechanism -- 2.3. Phase Composition and Structure -- 2.4. Morphology -- 3. Preparation and Characteristics of Ba(Ti, Zr)O3 Ceramics: Effectof Composition and Grain Size on the Functional Properties -- 3.1. Ceramics from Powders Prepared by Classical Solid State Reaction -- 3.1.1. Phase Composition and Microstructure -- 3.1.2. Dielectric Properties |
Bibliography |
Includes bibliographical references and index |
Notes |
Title from PDF title page (viewed Apr 16, 2013) |
Subject |
Nanotechnology.
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SCIENCE -- Nanoscience.
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TECHNOLOGY & ENGINEERING -- Nanotechnology & MEMS.
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Nanotechnology
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Form |
Electronic book
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Author |
Bartul, Zacharie
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Trenor, Jérôme
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ISBN |
9781617617515 |
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1617617512 |
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