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Sie Chin Tjong Carbon Nanotube Rein
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Sie Chin Tjong Carbon Nanotube Rein
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Contents Preface IX List of Abbrevi
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5 Carbon Nanotube-Ceramic Nanocompo
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Preface Carbon nanotubes are nanost
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XII List of Abbreviations HIP hot i
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1 Introduction 1.1 Background Compo
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Figure 1.2 Transmission electron mi
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1.3 Synthesis of Carbon Nanotubes 1
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MWNTs can be as high as 70% of the
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Figure 1.7 In situ TEM images recor
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1.3 Synthesis of Carbon Nanotubesj1
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show TEM images of MWNTs synthesize
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Since then, large efforts have been
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1.3.4 Patent Processes Carbon nanot
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1.4 Purification of Carbon Nanotube
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Table 1.3 Patent processes for the
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Figure 1.13 Schematic illustration
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1.5 Mechanical Properties of Carbon
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Figure 1.14 Carbon nanotubes in hig
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Figure 1.15 In situ tensile deforma
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Table 1.7 Theoretical and experimen
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Nomenclature ~a 1 , ~a 2 Unit vecto
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carbon nanotubes. Physical Review L
- Page 52 and 53: 70 Jang, I., Uh, H.S., Cho, H.J., L
- Page 54 and 55: 108 Shelimov, K.B., Esenaliev, R.O.
- Page 56 and 57: Bonnamy, S., Beguin, F., Burnham, N
- Page 58 and 59: 2 Carbon Nanotube-Metal Nanocomposi
- Page 60 and 61: isostatic pressing. In certain case
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- Page 64 and 65: coating material, the plasma gun an
- Page 66 and 67: Table 2.4 Changes in the size and v
- Page 68 and 69: Figure 2.6 (a) Low and (b) high mag
- Page 70 and 71: Figure 2.8 SEM micrographs showing
- Page 72 and 73: Figure 2.11 Bright field TEM microg
- Page 74 and 75: Figure 2.13 TEM image of bulk Al/5
- Page 76 and 77: 2.5 Magnesium-Based Nanocomposites
- Page 78 and 79: limited improvement in ultimate ten
- Page 80 and 81: Figure 2.18 SEM micrographs of the
- Page 82 and 83: Figure 2.19 (a) Low and (b) high ma
- Page 84 and 85: Figure 2.22 SEM micrographs of (a)
- Page 86 and 87: Figure 2.25 (a) TEM micrograph show
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- Page 90 and 91: Figure 2.27 TEM image of electrodep
- Page 92 and 93: Figure 2.29 SEM micrographs of (a)
- Page 94 and 95: Figure 2.31 Schematic representatio
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- Page 100 and 101: composite. Materials Science and En
- Page 104 and 105: 3 Physical Properties of Carbon Nan
- Page 106 and 107: flakes with platelets of 400 mm are
- Page 108 and 109: ð Þ Thus, the lower limit on KC y
- Page 110 and 111: Figure 3.3 Comparison between exper
- Page 112 and 113: Figure 3.5 DSC curvesshowing the sh
- Page 114 and 115: Figure 3.6 Dependence of electrical
- Page 116 and 117: management. Acta Astronautica, 29,
- Page 118 and 119: 4 Mechanical Characteristics of Car
- Page 120 and 121: Another approach for determining th
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- Page 124 and 125: Figure 4.4 SEM micrographs showing
- Page 126 and 127: Table 4.2 Density and mechanical pr
- Page 128 and 129: Figure 4.8 Texture analysis of Mg/1
- Page 130 and 131: Figure 4.10 (a) Compressive true st
- Page 132 and 133: Table 4.5 Mechanical properties of
- Page 134 and 135: Table 4.6 Tensile properties of PM
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- Page 138 and 139: Figure 4.17 Wear rate vs carbon nan
- Page 140 and 141: Figure 4.19 Friction coefficient vs
- Page 142 and 143: Nomenclature A Indentation contact
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- Page 148 and 149: Ductile phase toughening involves t
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5.3 Preparation of Ceramic-CNT Nano
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Figure 5.3 SEM micrographs of (a) F
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component shape [53-55, 61-63]. A s
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Figure 5.9 SEM images of (a) fractu
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5.4 Oxide-Based Nanocompositesj145
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Figure 5.13 (a) FTIR of amorphous A
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Figure 5.16 Schematic illustrations
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Figure 5.18 Process map of plasma s
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Figure 5.21 Reaction between SWNT-C
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5.4.3 Titania Matrix Titania (TiO2)
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Figure 5.26 TEM images of titania c
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Figure 5.27 (a) Bulk density, (b) r
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Figure 5.29 SEM fractographs of spa
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Al2O3-SiCp nanocomposites. Journal
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properties. Acta Materialia, 48, 38
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96 Zhao, L., Yu, Y., Song, L., Hu,
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6 Physical Properties of Carbon Nan
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increase in the heat flux in the de
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where p is volume fraction of the f
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Figure 6.3 Effective d.c. electrica
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Figure 6.6 Dielectric constant vs f
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The real part (e 0 ) correlates wit
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Table 6.3 SPS processing conditions
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with ropes of single-walled carbon
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7 Mechanical Properties of Carbon N
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materials [17]. This is because VIF
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Chap. 5, Ref. 54, Chap. 5, Ref. 60]
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Fan et al. prepared the Al2O3/0.5 w
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sintered at 1500 C are responsible
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Figure 7.8 Normalized Vickers inden
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Figure 7.10 Low-and high magnificat
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Figure 7.11 Relative density (r.d.)
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Figure 7.13 Variations of bending s
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Figure 7.14 (a) Three-point bending
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Figure 7.16 Microhardness as a func
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Table 7.5 Mechanical properties of
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Figure 7.20 Variation of r.d. with
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Figure 7.23 Coefficient of friction
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6 Fischer, H., Waindich, A. and Tel
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8 Conclusions 8.1 Future Prospects
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commercialization of CNT-reinforced
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HA nanocrystals resemble more close
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Table 8.2 Synthesis of micro-HA/CNT
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Figure 8.5 Tissue responses of (1)
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19 Webster, T.J., Ergun, C., Doremu
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Index a agglomerates 20 alumina cer
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