288 phonons, 80, 120 phosphates, 98, 101, 124, 136 phosphorous, 99, 100, 137 photographs, 16, 17, 18, 267, 268, 275 photonics, viii, 53, 55, 56, 61, 90 photons, 243 physical properties, ix, 91, 97, 245 physicochemical properties, 55 physico-chemical properties, 91 physics, 82, 224, 255, 259 piezoceramics, x, 211, 213, 214, 215, 222, 224, 227, 231, 233, 238 piezocomposites, x, 211, 212, 213, 214, 216, 219, 221, 223, 224, 227, 229, 231, 232, 237, 239 piezoelectric properties, x, 211, 216, 238 piezoelectricity, 240 pigments, xi, 3, 10, 11, 13, 23, 25, 26, 27, 261, 262, 263, 264, 265, 266, 267, 268, 269, 270, 271, 272, 274, 276, 277, 278, 279 pitch, 248 plasma, vii, xi, 1, 10, 241, 247, 257 plastic deformation, 55 platelets, 175 polarizability, 84 polarized light, 16, 17, 18 polyethylene, 11, 214, 231 polymer(s), vii, x, 176, 181, 211, 212, 213, 214, 215, 216, 217, 218, 219, 222, 227, 235, 236, 237, 239, 246 polymer composites, x, 211, 214, 215, 217, 218, 239 polymer materials, x, 211 polymer matrix, 177 polyphosphates, ix, 97, 101 polyurethane, 226, 232 poor, x, 141, 212 porosity, x, 173, 174, 175, 176, 182, 183, 184, 185, 186, 187, 189, 192, 205, 208, 211, 214, 229, 239 potassium, 11, 19, 54, 272, 276 potential energy, 243 power, viii, xi, 4, 11, 25, 35, 39, 40, 43, 45, 46, 50, 90, 158, 160, 170, 175, 205, 231, 241, 242, 245, 252, 253, 267, 272 praseodymium, xi, 261, 262, 265, 277, 278 precipitation, 61 prediction, 52, 178 preference, 28, 278 pressure, viii, 35, 36, 41, 43, 48, 54, 55, 57, 157, 178, 182, 213, 225, 246, 248, 250, 253, 257 Pr<strong>in</strong>cipal Components Analysis, 19 private property, 21 probability, 21, 82 probe, 265 process control, 249 Index production, 7, 26, 27, 54, 56, 176, 212, 214, 246 productivity, 48 program, x, 13, 29, 81, 99, 104, 141, 166, 253, 264, 265, 278 programm<strong>in</strong>g, 206, 242 promote, 271, 273, 276 promoter, 266 propagation, 124, 130 proportionality, 189 prototype, 198, 202 pulse, 179, 235 pulses, 235 purification, 57, 264 PVA, 214 pyrolysis, 176, 277 Q quality control, 11 quality improvement, viii, 35, 36 quantitative estimation, 265 quartz, 11, 16, 17, 18, 27 R radiation, 56, 62, 66, 71, 81, 159, 160, 163, 245, 247, 251, 264, 265 radius, 64, 146, 150, 158, 224, 244, 267, 276 ra<strong>in</strong>, 73, 144 Raman, 79, 80, 94, 278 Raman spectra, 79, 80, 94 range, vii, viii, x, xi, 26, 54, 56, 64, 66, 67, 68, 72, 83, 90, 98, 99, 104, 107, 111, 120, 122, 126, 127, 131, 133, 137, 152, 155, 156, 157, 179, 193, 211, 212, 214, 225, 227, 229, 234, 239, 245, 247, 253, 261, 263, 264, 265, 268, 273, 274, 276 rare earth elements, 10 raw materials, vii, viii, 12, 54, 61, 67, 73, 90 reaction medium, ix, 97 reaction time, 99 reactive ion, 249 reactivity, 72 read<strong>in</strong>g, 257 reagents, 99 reality, 242 recognition, 5, 12, 195 recrystallization, 55, 73 reduction, viii, 35, 36, 51, 75, 82, 99, 103, 143, 148, 155, 164, 169, 192, 193, 200, 208, 217, 218, 232, 237, 243 reflectance spectra, 99, 263, 265, 269, 274, 275, 276 reflection, 73, 94
efraction <strong>in</strong>dex, 61 refractive <strong>in</strong>dex, 84, 90 refractory, vii, 48, 244 regression, 168 regression equation, 168 re<strong>in</strong>forcement, 142, 176, 178 relaxation, viii, 53, 56, 79, 81, 82, 94, 95, 107, 216 relaxation rate, 79 relevance, 168 reliability, 259 repair, 174, 182 reparation, 55, 69, 90 replication, 201, 213, 231 research design, 10 residues, 249 resistance, viii, 35, 43, 48, 54, 56, 57, 64, 151, 159, 160, 175, 176, 247 resolution, 11, 54, 76, 79, 99, 109, 124, 235, 242, 248 resonator, 148, 157, 158, 159, 160, 161, 167, 170 resources, 3, 10, 18, 21, 27, 175, 205 response time, 245 retention, 12 RIE, 249 risk, 10, 251 rods, 219 room temperature, 61, 67, 68, 69, 70, 71, 80, 81, 82, 99, 104, 111, 115, 116, 120, 129, 130, 138, 176, 247, 248, 253, 264 Rotary ultrasonic mach<strong>in</strong><strong>in</strong>g, viii, 35, 36, 52 roughness, viii, 35, 36, 37, 41, 42, 43, 45, 46, 247 Royal Society, 260 R-squared, 168 RTA, 161 rubber, 224, 226 rubidium, 11, 19, 20 RUM, viii, 35, 36, 37, 38, 39, 40, 41, 43, 44, 45, 46, 47, 48, 49, 50 Russia, 53, 56, 72, 144 S SA, 51, 265 salt(s), vii, xi, 1, 99, 136, 261, 263, 264, 270, 271, 272, 273, 276 samarium, 11 sample, 7, 10, 11, 12, 13, 19, 21, 22, 26, 29, 54, 56, 57, 58, 61, 63, 64, 66, 67, 68, 69, 70, 71, 73, 76, 83, 84, 85, 87, 88, 90, 106, 107, 111, 116, 117, 126, 138, 179, 195, 202, 228, 244, 247, 248, 250, 251, 252, 256, 257, 263, 265, 267, 268, 272, 274, 276 sampl<strong>in</strong>g, 7, 10 Index 289 sampl<strong>in</strong>g error, 10 Samsung, 244, 245 satisfaction, 243 saturation, 115, 131 scalability, 207, 244 scal<strong>in</strong>g, 259 Scand<strong>in</strong>avia, 146, 170 scandium, 11 scann<strong>in</strong>g electron microscopy, 265 scann<strong>in</strong>g electronic microscope, 265 scatter, 217 scatter<strong>in</strong>g, 57, 160, 161, 170 schema, 7 science, 56, 72, 171 scientific knowledge, 169 second generation, 244 sedimentation, 62 seed, 201 seed<strong>in</strong>g, 200 segregation, 273 select<strong>in</strong>g, 7, 227 SEM micrographs, xi, 187, 215, 261, 268 semiconductor, xi, 241, 243, 244 semiconductors, xi, 241 sensation, 142 sens<strong>in</strong>g, 218 sensitivity, x, 117, 211, 212, 213, 214, 225, 226, 227, 228, 229, 230, 232, 235, 236, 237, 239 sensors, 64 separation, 12, 19, 21, 25 Serbia, 150 series, 3, 5, 6, 8, 19, 20, 103, 113, 115, 183, 213, 252, 264, 266, 267, 272 shade, 268, 270, 276 shape, 8, 62, 67, 73, 74, 100, 145, 146, 147, 151, 155, 158, 170, 176, 197, 203, 204, 237, 243, 245, 247, 249, 251, 265, 268, 274 shares, 100, 242 shar<strong>in</strong>g, 262 shock, 48, 56 shores, 27 Si3N4, vii sign(s), 198, 204, 217 signals, ix, 97, 103, 108, 109, 111, 235 signal-to-noise ratio, 232 silica, 66, 265, 266, 268, 274 silicon, viii, 10, 35, 36, 43, 44, 47, 51, 52, 181, 182, 183, 184, 185, 255, 256, 257, 259, 263, 267, 274 silicon carbide, 43, 46, 47, 48, 49 silver, 214, 231 similarity, 205 simulation, x, 51, 109, 111, 141, 166, 190, 195, 206
- Page 3:
DEVELOPMENTS IN CERAMIC MATERIALS R
- Page 6 and 7:
Copyright © 2007 by Nova Science P
- Page 9 and 10:
PREFACE Ceramics are refractory, in
- Page 11 and 12:
Preface ix crystals is discussed. A
- Page 13:
Preface xi spectra and the directio
- Page 16 and 17:
2 Leslie G. Cecil comprehensive dat
- Page 18 and 19:
4 Leslie G. Cecil Ringle et al. (19
- Page 20 and 21:
6 Leslie G. Cecil The main architec
- Page 22 and 23:
8 Leslie G. Cecil can study “the
- Page 24 and 25:
10 Leslie G. Cecil Middleton et al.
- Page 26 and 27:
12 Leslie G. Cecil The laser ablate
- Page 28 and 29:
14 Leslie G. Cecil There are two ge
- Page 30 and 31:
16 Leslie G. Cecil distinct recipes
- Page 32 and 33:
18 Leslie G. Cecil second group (Fi
- Page 34 and 35:
20 Leslie G. Cecil The Vitzil-Orang
- Page 36 and 37:
22 Leslie G. Cecil Table 3. Mahalan
- Page 38 and 39:
24 Leslie G. Cecil Ixlú and Ch’i
- Page 40 and 41:
26 Leslie G. Cecil structures (D. R
- Page 42 and 43:
28 Leslie G. Cecil paste and Macanc
- Page 44 and 45:
30 Leslie G. Cecil Bieber, A. M. Jr
- Page 46 and 47:
32 Leslie G. Cecil Kepecs, S. M., a
- Page 48 and 49:
34 Leslie G. Cecil Schele, L., Grub
- Page 50 and 51:
36 Z. C. Li, Z. J. Pei and C. Tread
- Page 52 and 53:
38 Z. C. Li, Z. J. Pei and C. Tread
- Page 54 and 55:
40 Z. C. Li, Z. J. Pei and C. Tread
- Page 56 and 57:
42 Z. C. Li, Z. J. Pei and C. Tread
- Page 58 and 59:
44 Z. C. Li, Z. J. Pei and C. Tread
- Page 60 and 61:
46 Z. C. Li, Z. J. Pei and C. Tread
- Page 62 and 63:
48 Z. C. Li, Z. J. Pei and C. Tread
- Page 64 and 65:
50 Z. C. Li, Z. J. Pei and C. Tread
- Page 66 and 67:
52 Z. C. Li, Z. J. Pei and C. Tread
- Page 68 and 69:
54 T. T. Basiev, V. A. Demidenko, K
- Page 70 and 71:
56 T. T. Basiev, V. A. Demidenko, K
- Page 72 and 73:
58 T. T. Basiev, V. A. Demidenko, K
- Page 74 and 75:
60 T. T. Basiev, V. A. Demidenko, K
- Page 76 and 77:
62 I, % 100 80 60 40 20 0 T. T. Bas
- Page 78 and 79:
64 T. T. Basiev, V. A. Demidenko, K
- Page 80 and 81:
66 T. T. Basiev, V. A. Demidenko, K
- Page 82 and 83:
68 Fluorescence, a.u. 1 T. T. Basie
- Page 84 and 85:
70 Fluorescence, a.u. 1 0.1 0.01 0.
- Page 86 and 87:
72 T. T. Basiev, V. A. Demidenko, K
- Page 88 and 89:
74 T. T. Basiev, V. A. Demidenko, K
- Page 90 and 91:
76 T. T. Basiev, V. A. Demidenko, K
- Page 92 and 93:
78 k, cm -1 20 18 16 14 12 10 8 6 4
- Page 94 and 95:
80 T. T. Basiev, V. A. Demidenko, K
- Page 96 and 97:
82 Photon counts 300 250 200 150 10
- Page 98 and 99:
84 Fluorescence, a.u. I transfer ,
- Page 100 and 101:
86 ln(I transfer (t)) -4.2 -4.4 -4.
- Page 102 and 103:
88 Fluorescence, a.u. I transfer ,
- Page 104 and 105:
90 T. T. Basiev, V. A. Demidenko, K
- Page 106 and 107:
92 T. T. Basiev, V. A. Demidenko, K
- Page 108 and 109:
94 T. T. Basiev, V. A. Demidenko, K
- Page 111 and 112:
In: Developments in Ceramic Materia
- Page 113 and 114:
Synthesis, Spectroscopic and Magnet
- Page 115 and 116:
a c Synthesis, Spectroscopic and Ma
- Page 117 and 118:
Synthesis, Spectroscopic and Magnet
- Page 119 and 120:
Transmission Transmission Transmiss
- Page 121 and 122:
Synthesis, Spectroscopic and Magnet
- Page 123 and 124:
Synthesis, Spectroscopic and Magnet
- Page 125 and 126:
Synthesis, Spectroscopic and Magnet
- Page 127 and 128:
Synthesis, Spectroscopic and Magnet
- Page 129 and 130:
Synthesis, Spectroscopic and Magnet
- Page 131 and 132:
Synthesis, Spectroscopic and Magnet
- Page 133 and 134:
Synthesis, Spectroscopic and Magnet
- Page 135 and 136:
Synthesis, Spectroscopic and Magnet
- Page 137 and 138:
Sm (J/Kmol) Sm (J/Kmol) 15 10 5 Syn
- Page 139 and 140:
Synthesis, Spectroscopic and Magnet
- Page 141 and 142:
Synthesis, Spectroscopic and Magnet
- Page 143 and 144:
Synthesis, Spectroscopic and Magnet
- Page 145 and 146:
Intensity (a.u.) Intensity (a.u.) 8
- Page 147 and 148:
Synthesis, Spectroscopic and Magnet
- Page 149 and 150:
Synthesis, Spectroscopic and Magnet
- Page 151 and 152:
Synthesis, Spectroscopic and Magnet
- Page 153 and 154:
Synthesis, Spectroscopic and Magnet
- Page 155 and 156:
In: Developments in Ceramic Materia
- Page 157 and 158:
The Use of Ceramic Pots in Old Wors
- Page 159 and 160:
The Use of Ceramic Pots in Old Wors
- Page 161 and 162:
The Use of Ceramic Pots in Old Wors
- Page 163 and 164:
3.2. Wall-in Positions The Use of C
- Page 165 and 166:
The Use of Ceramic Pots in Old Wors
- Page 167 and 168:
The Use of Ceramic Pots in Old Wors
- Page 169 and 170:
The Use of Ceramic Pots in Old Wors
- Page 171 and 172:
IACC ( τ ) = t2 ∫ The Use of Cer
- Page 173 and 174:
The Use of Ceramic Pots in Old Wors
- Page 175 and 176:
where σ res is the scattering cros
- Page 177 and 178:
The Use of Ceramic Pots in Old Wors
- Page 179 and 180:
D50 0.8 0.7 0.6 0.5 0.4 0.3 The Use
- Page 181 and 182:
Definition (D50) 1 0.95 0.9 0.85 0.
- Page 183 and 184:
The Use of Ceramic Pots in Old Wors
- Page 185 and 186:
The Use of Ceramic Pots in Old Wors
- Page 187 and 188:
In: Developments in Ceramic Materia
- Page 189 and 190:
Modeling of Thermal Transport in Ce
- Page 191 and 192:
Modeling of Thermal Transport in Ce
- Page 193 and 194:
Modeling of Thermal Transport in Ce
- Page 195 and 196:
Modeling of Thermal Transport in Ce
- Page 197 and 198:
Modeling of Thermal Transport in Ce
- Page 199 and 200:
Modeling of Thermal Transport in Ce
- Page 201 and 202:
Modeling of Thermal Transport in Ce
- Page 203 and 204:
Modeling of Thermal Transport in Ce
- Page 205 and 206:
q x = Modeling of Thermal Transport
- Page 207 and 208:
Modeling of Thermal Transport in Ce
- Page 209 and 210:
Modeling of Thermal Transport in Ce
- Page 211 and 212:
Modeling of Thermal Transport in Ce
- Page 213 and 214:
Modeling of Thermal Transport in Ce
- Page 215 and 216:
Modeling of Thermal Transport in Ce
- Page 217 and 218:
Modeling of Thermal Transport in Ce
- Page 219 and 220:
Modeling of Thermal Transport in Ce
- Page 221 and 222:
Modeling of Thermal Transport in Ce
- Page 223:
Modeling of Thermal Transport in Ce
- Page 226 and 227:
212 R. Ramesh, H. Kara, Ron Stevens
- Page 228 and 229:
214 R. Ramesh, H. Kara, Ron Stevens
- Page 230 and 231:
216 R. Ramesh, H. Kara, Ron Stevens
- Page 232 and 233:
218 R. Ramesh, H. Kara, Ron Stevens
- Page 234 and 235:
220 ε S 33 R. Ramesh, H. Kara, Ron
- Page 236 and 237:
222 R. Ramesh, H. Kara, Ron Stevens
- Page 238 and 239:
224 R. Ramesh, H. Kara, Ron Stevens
- Page 240 and 241:
226 R. Ramesh, H. Kara, Ron Stevens
- Page 242 and 243:
228 R. Ramesh, H. Kara, Ron Stevens
- Page 244 and 245:
230 R. Ramesh, H. Kara, Ron Stevens
- Page 246 and 247:
232 R. Ramesh, H. Kara, Ron Stevens
- Page 248 and 249:
234 R. Ramesh, H. Kara, Ron Stevens
- Page 250 and 251:
236 R. Ramesh, H. Kara, Ron Stevens
- Page 252 and 253: 238 R. Ramesh, H. Kara, Ron Stevens
- Page 254 and 255: 240 R. Ramesh, H. Kara, Ron Stevens
- Page 256 and 257: 242 Development of Display Technolo
- Page 258 and 259: 244 Li Chen technology moved to the
- Page 260 and 261: 246 Li Chen The continuing evolutio
- Page 262 and 263: 248 Li Chen the back contact cathod
- Page 264 and 265: 250 Li Chen Figure 3. Vertical side
- Page 266 and 267: 252 Li Chen Figure 6. Molybdenum mi
- Page 268 and 269: 254 Li Chen Figure 8(a). I-V curve
- Page 270 and 271: 256 Li Chen Figure 9. Life time tes
- Page 272 and 273: 258 Figure 11(a). Plasma generated
- Page 274 and 275: 260 Li Chen [13] C.A. Spindt, K.R.
- Page 276 and 277: 262 S. Ardizzone, C. L. Bianchi, G.
- Page 278 and 279: 264 S. Ardizzone, C. L. Bianchi, G.
- Page 280 and 281: 266 S. Ardizzone, C. L. Bianchi, G.
- Page 282 and 283: 268 S. Ardizzone, C. L. Bianchi, G.
- Page 284 and 285: 270 S. Ardizzone, C. L. Bianchi, G.
- Page 286 and 287: 272 S. Ardizzone, C. L. Bianchi, G.
- Page 288 and 289: 274 S. Ardizzone, C. L. Bianchi, G.
- Page 290 and 291: 276 S. Ardizzone, C. L. Bianchi, G.
- Page 292 and 293: 278 S. Ardizzone, C. L. Bianchi, G.
- Page 295 and 296: A absorption spectra, 66, 67, 77, 7
- Page 297 and 298: correlation function, 156 corrosion
- Page 299 and 300: group membership, 13, 20, 21, 22, 2
- Page 301: microstructure(s), x, xi, 73, 74, 2
- Page 305 and 306: time, vii, ix, 1, 3, 7, 8, 11, 26,