HANDBOOK OF CARBON, GRAPHITE, DIAMONDS AND FULLERENES
Processing, Properties and Applications To order this title, and for more information, click here
By Hugh O. Pierson, Sandia National Laboratories (retired)
Description 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. The need for such a book has been felt for some time. These carbon materials are very different in structure and
properties. Some are very old (charcoal), others brand new (the fullerenes). They have different applications and markets and are produced
by different segments of the industry.
Few studies are available that attempt to review the entire field of carbon as a whole discipline.
Moreover these studies were written several decades ago and a generally outdated since the development of the technology is moving very
rapidly and scope of applications is constantly expanding and reaching into new fields such as aerospace, automotive, semiconductors,
optics, and electronics. In this book the author provides a valuable, up-to-date account of both the newer and traditional forms of carbon,
both naturally occurring and man-made. This volume will be a valuable resource for both specialists in, and occasional users of carbon
materials.
Audience
Aerospace, automotive, semiconductors, optics, and electronics.
Contents 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
2. The Element Carbon
1.0 The Structure of the Carbon Atom
2.0 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
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
4. Synthetic Carbon and Graphite: Carbonization
and Graphitization
1.0 Types of Synthetic Carbon and Graphite
2.0 The Carbonization (Pyrolysis) Process
3.0 The Graphitization
Process
References
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
6. Vitreous
Carbon
1.0 General Considerations
2.0 Precursors and Processing
3.0 Structure and Properties of Vitreous Carbon
4.0 Solid Vitreous
Carbon
5.0 Vitreous Carbon Foam
6.0 Vitreous Carbon Spheres and Pellets
References
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
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
9. Applications of Carbon Fibers
1.0 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
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
11. Structure
and Properties of Diamond and Diamond Polytypes
1.0 Introduction
2.0 Structure of Diamond and Diamond Polytypes
3.0 Impurities
in Diamond and Classification
4.0 Physical Properties
5.0 Thermal Properties of Diamond
6.0 Optical Properties of Diamond
7.0
X-Ray Transmission of Diamond
8.0 Acoustical Properties of Diamond
9.0 Electrical and Semiconductor Properties of Diamond
10.0
Mechanical Properties of Diamond
11.0 Chemical Properties of Diamond
References
12. Natural and High-Pressure Synthetic Diamond
1.0 Introduction
2.0 Natural Diamond
3.0 High-Pressure Synthetic Diamond
4.0 Natural and High-Pressure Synthetic Diamond Production
5.0 Industrial Applications of Natural and High-Pressure Synthetic Diamonds
References
13. CVD Diamond
1.0 Introduction
2.0 Deposition
Mechanism of CVD Diamond
3.0 CVD Diamond Processes
4.0 Properties of CVD Diamond
5.0 Applications of CVD Diamond
References
14.
Diamond-Like Carbon (DLC)
1.0 General Characteristics of DLC
2.0 Structure and Composition of DLC
3.0 Processing of DLC
4.0 Characteristics
and Properties of DLC
5.0 Applications of DLC
References
15. The Fullerene Molecules
1.0 General Considerations
2.0 Structure
of the Fullerene Molecules
3.0 Fullerenes in the Condensed State
4.0 Chemical Reactivity and Fullerene Compounds
5.0 Fullerenes
Processing
6.0 Potential Applications
References
Glossary
Index
Bibliographic details
Hardbound, 419 pages, publication date: DEC-1994
ISBN-13: 978-0-8155-1339-1
ISBN-10: 0-8155-1339-9
Imprint: WILLIAM ANDREW
Price and Ordering
Price: GBP 117.99 USD 195 EUR 138.95
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