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Handbook of carbon, graphite, diamond, and fullerenes : properties, processing, and applications /
This book is a review of the science and technology of the element carbon and its allotropes: graphite, diamond and the fullerenes. This field has expanded greatly in the last three decades stimulated by many major discoveries such as carbon fibers, low-pressure diamond and the fullerenes. These car...
| Clasificación: | Libro Electrónico |
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| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Park Ridge, N.J. :
Noyes Publications,
©1993.
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| Colección: | Materials science and process technology series. Electronic materials and process technology.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Handbook of Carbon, Graphite, Diamonds and Fullerenes: Properties, Processing and Applications; Copyright Page; MATERIALS SCIENCE AND PROCESS TECHNOLOGY SERIES; Foreword; Preface; NOTICE; Table of Contents; Chapter 1. Introduction and General Considerations; 1.0 BOOK OBJECTIVES; 2.0 THE CARBON ELEMENT AND ITS VARIOUS FORMS; 3.0 THE CARBON ELEMENT IN NATURE; 4.0 HISTORICAL PERSPECTIVE; 5.0 PRODUCTS DERIVED FROM THE CARBON ELEMENT; 6.0 PROFILE OF THE INDUSTRY; 7.0 GLOSSARY AND METRIC CONVERSION GUIDE; 8.0 BACKGROUND READING; REFERENCES; Chapter 2. The Element Carbon.
- 1.0 THE STRUCTURE OF THE CARBON ATOM2.0 THE ISOTOPES OF CARBON; 3.0 HYBRIDIZATION AND THE sp3 CARBON BOND; 4.0 THE TRIGONAL sp2 AND DIGONAL sp CARBON BONDS; 5.0 CARBON VAPOR MOLECULES; 6.0 THE CARBON ALLOTROPES; REFERENCES; Chapter 3. Graphite Structure and Properties; 1.0 THE STRUCTURE OF GRAPHITE; 2.0 THE VARIOUS POLYCRYSTALLINE FORMS OF GRAPHITE; 3.0 PHYSICAL PROPERTIES OF GRAPHITE; 4.0 THERMAL PROPERTIES OF GRAPHITE; 5.0 ELECTRICAL PROPERTIES OF GRAPHITE; 6.0 MECHANICAL PROPERTIES OF GRAPHITE; 7.0 CHEMICAL PROPERTIES; REFERENCES.
- Chapter 4. Synthetic Carbon and Graphite:Carbonization and Graphitization1.0 TYPES OF SYNTHETIC CARBON AND GRAPHITE; 2.0 THE CARBONIZATION (PYROLYSIS) PROCESS; 3.0 THE GRAPHITIZATION PROCESS; REFERENCES; Chapter 5. Molded Graphite: Processing, Properties, and Applications; 1.0 GENERAL CONSIDERATIONS; 2.0 PROCESSING OF MOLDED GRAPHITES; 3.0 CHARACTERISTICS AND PROPERTIES OF MOLDED GRAPHITE; 4.0 APPLICATIONS AND MARKET OF MOLDED GRAPHITE; REFERENCES; Chapter 6. Vitreous Carbon; 1.0 GENERAL CONSIDERATIONS; 2.0 PRECURSORS AND PROCESSING; 3.0 STRUCTURE AND PROPERTIES OF VITREOUS CARBON.
- 4.0 SOLID VITREOUS CARBON5.0 VITREOUS CARBON FOAM; 6.0 VITREOUS CARBON SPHERES AND PELLETS; REFERENCES; Chapter 7. Pyrolytic Graphite; 1.0 GENERAL CONSIDERATIONS; 2.0 THE CVD OF PYROLYTIC GRAPHITE; 3.0 STRUCTURE OF PYROLYTIC GRAPHITE; 4.0 PROPERTIES OF PYROLYTIC GRAPHITE; 5.0 APPLICATIONS OF PYROLYTIC GRAPHITE AND CARBON; REFERENCES; Chapter 8. Carbon Fibers; 1.0 GENERAL CONSIDERATIONS; 2.0 CARBON FIBERS FROM PAN; 3.0 CARBON FIBERS FROM PITCH; 4.0 CARBON FIBERS FROM RAYON; 5.0 CARBON FIBERS FROM VAPOR-PHASE (CVD) REACTION; 6.0 PROPERTIES OF CARBON FIBERS; REFERENCES.
- Chapter 9. Applications of Carbon Fibers1.0 CARBON-FIBER COMPOSITES; 2.0 CARBON-FIBER ARCHITECTURE; 3.0 CARBON-FIBER POLYMER (RESIN) COMPOSITES; 4.0 CARBON-CARBON; 5.0 METAL-MATRIX, CARBON-FIBER COMPOSITES; 6.0 CERAMIC-MATRIX, CARBON-FIBER COMPOSITES; 7.0 OTHER APPLICATIONS OF CARBON FIBERS; REFERENCES; Chapter 10. Natural Graphite, Graphite Powders, Particles, and Compounds; 1.0 NATURAL GRAPHITE; 2.0 CARBON-DERIVED POWDERS AND PARTICLES; 3.0 INTERCALATED COMPOUNDS AND LUBRICATION; 4.0 ACTIVATION, ADSORPTION AND CATALYSIS; REFERENCES.