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Edited
by
-I
-
Timothy
D.
Burchell
*
Carbon Materials
for
Advanced
Technologies
Carbon Materials
for
Advanced
Technologies
Edited
by
Timothy
D.
Burchell
Oak
Ridge,
National Laboratory
Oak
Ridge,
TN
37831 -6088
U.S.A.
1999
PERGAMON
An Imprint
of
Elsevier Science
Amsterdam
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Lausanne
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New
York
-
Oxford
-
Shannon
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Singapore
-
Tokyo
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SCIENCE
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@
1999
Elsevier Science
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First
edition
1999
Library of congress Cataloging
in
Publication Data
A catalog record from the Library of Congress has been applied for.
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publication Data
A catalogue record from the British Library has been applied for.
ISBN
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@
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Printed
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Contents
Gon~ibutors
xi
Acknowledgments
xiii
pref~ce
xv
1
Structure
and Bonding in
Carbon
Materials
P
Brian
Me
E
naney
1
Introduction
1
2 Crystalline
Forms
of
Carbon
3
3
The
Phase and Transition Diagram forCarbon
12
4
CarbonFilms
14
5
Carbon Nanoparticles
18
6
Engineering Carbons
20
7 ConcludingRemarks
28
8 Acknowledgments
29
9
References
29
2
Fullerenes
and
Nanotubes
39
Mildred
S
.
Dresselhaus
.
Peter
C
.
Eklund
and
Gene Dresselhaus
1 Introduction
35
2
4
Applications
84
5
Acknowledgments
87
6 References
87
Fullerenes and Fullerene-based Solids
37
3
Carbon Nanotubes
61
3
Active Carbon Fibers
95
Timothy
J.
Mays
1 Introduction
95
2
Background
96
3
5
Acknowledgments
111
6
References
111
Applications
of
Active Carbon Fibers
101
4
ConcludingRemarks
110
vi
4
High Performance Carbon Fibers
119
Dan D
.
Edie and
John
J
.
McHugh
Introduction
119
Processing Carbon Fibers from Polyacrylonitrile
119
High Performance Carbon Fibers from Novel Precursors
133
Carbon Fiber Property Comparison
133
Current Areas for High Performance Carbon Fiber Research
134
Summary and Conclusions
135
References
135
Carbon Fibers from Mesophase Pitch
123
5
Vapor Grown Carbon Fiber Composites
139
Max
L
.
Lake and Jyh-Ming Ting
Introduction
139
CurrentForms
142
Fiberproperties
144
Composite Properties
146
Potential Applications
158
Manufacturing Issues
160
Conclusions
164
References
165
6
Porous Carbon Fiber-Carbon Binder Composites
169
Timothy
D
.
Burchell
Introduction
169
Manufacture
169
Carbon Bonded Carbon Fiber
173
Damage Tolerant Light Absorbing Materials
181
Summary
and Conclusions
200
Acknowledgments
201
References
201
Carbon Fiber Composite Molecular Sieves
183
7
Coal-DerivedCarbons
205
Peter
G
.
Stansberry.
John
W
.
Zondlo and Alfred
H
.
Stiller
1
Review of Coal Derived Carbons
205
2 SolventExtractionofCoal
211
3 Preparation and Characteristics
of
Cokes Produced
from
Solvent
Extraction
223
4 Preparation and Evaluation of Graphite from Coal-Derived
Feedstocks
229
5
Summary
233
6 Acknowledgments
233
7
References
233
8
Activated Carbonfor Automotive
Applications
235
Philip
J.
Johnson.
David
J.
Setsuda and Roger
S
.
Williams
Background
235
Activated Carbon
239
Vehicle Fuel Vapor Systems
244
Adsorption
246
Carbon Canister Design
252
Application of Canisters in Running
Loss
Emission Control
257
Application
of
Canisters
in
ORVR
Control
263
Summary
and Conclusions
265
References
266
9
Adsorbent Storage for Natural Gas Vehicles
269
Terv
L
.
Cook.
Costa Komodromos. David
F
.
Quinn and
Steve Ragun
1
Introduction
269
2 Storage of Natural Gas
274
3 Adsorbents
280
4 Adsorbent Fill-Empty Testing
293
5 GuardBeds
294
6 Summary
298
7
References
299
[...]... of carbon, C,, or Buclctnmsterfullerene,has been the subject of extensive research, as have the related carbon nanotubes and nanostructures Engineered carbons take many forms For example, cokes, graphites, carbon and graphite fibers, carbon fiber - carbon matrix composites, adsorbent carbons and monoliths, glassy carbons, carbon blacks, carbon films and diamond llke films, Many of these engineered carbon. .. Transformationof the metastable forms to the thermodynamically stable form (i.e., graphite under ambient conditions) is kinetically limited by the high activation energy for the transformation Some carbynoid forms of carbon, e.g., Carbolite [24], may fall into this category, as do amorphous carbon films (see below) 4.1 Amorphous carbon films As noted above, amorphous carbon films can be produced from carboncontaining... metallic forms up to 1.3-2.3 TPa The high pressure-high temperature (up to -2 TPa, 14000 K) phase and transformation diagram forcarbon has been reviewed by Sekine [69] 14 4 Carbon Films The transformations between one form of carbon and another can be classified as follows: a) solid-solid transformations, as between diamond and graphite at points 'B' and 'C' in Fig 5; b) solid-solute-solid transformations... of fracture xviii is reported and its performance discussed Clearly, not all forms of carbon material, nor all the possible applications thereof, are discussed in this book However, the application of carbonmaterials in many advanced technologies are reported here Carbon has played an important role in mankind's technological and social development In the form of charcoal it was an essential ingredient... engage scientists and engineers for may years to come References 1 Donnet, J-B and Bansal, R.C Carbon Fibers, 2nd Edition, Marcel Dekker, Inc., New York 1990 2 Thomas, C.R., ed Essentials o Carbon- Carbon Composites,Royal Society of f Chemistry, UK 1993 3 Buckley, J.D and Edie, D.D Carbon- CarbonMaterials and Composites, Noyes Publications, Park Ridge, NJ 1993 4 Savage, G Carbon- Carbon Composites, Chapman... modulus carbon fibers that enable the lightweight stiff composite structures used in airfiames and spacecraft) Chapter 1 contains a review of carbon materials, and emphasizes the structure and chemical bonding in the various forms of carbon, including the four allotropes diamond, graphite, carbynes, and the fullerenes In addition, amorphous carbon and diamond films, carbon nanoparticles, and engineered carbons... include: (i) crystalline forms of carbon: diamond, graphite, Fullerenes and carbynes; (ii) amorphous carbon films and diamond films; (iii) carbon nanoparticles, including carbon nanotubes; (iv) engineering carbons with moreor-less disordered microstructures based on that of graphite that are the main focus of this book 1,I Bonding between carbon atoms Here, the bonding between carbon atoms is briefly... that the values in Table 1 are mean, overall values Carbon- carbon bond lengths depend upon the local molecular environment Table 2 lists some values of carbon- carbon bond lengths obtained from crystals of organic compounds In general, bond length decreases as the bond order of adjacent carbon- carbon bonds increases Table 1 Some properks of carbon- carbon bonds Bond Bond order Bond length Mean bond enthalpy... The Phase and Transition Diagram for Carbon Elucidation of the phase relationships between the different forms of carbon is a difficult field of study because of the very high temperatures and pressures that must be applied However, the subject is one of great technical importance because of the need to understand methods for transforming graphite and disordered forms of carbon into diamond The diagram... improved adsorbent carbons, advanced cycles, and improved heat transfer in the granular adsorbent carbon beds Chapter 11 reports the use of carbon materials in the fast growing consumer electronics application of lithium-ion batteries The principles of operation of a lithumion battery and the mechanism of Li insertion are reviewed The d u e n c e of the structure of carbon materials on anode performance is .
-I
-
Timothy
D.
Burchell
*
Carbon Materials
for
Advanced
Technologies
Carbon Materials
for
Advanced
Technologies
Edited
by
Timothy
D Laboratory hosted an American Carbon Society
Workshop entitled Carbon Materials for Advanced Technologies . The
inspiration for
this
book came fiom that