Verfügbarkeit: Ceramic science for materials technologists

Ceramic science for materials technologists:

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Bibliographische Detailangaben
1. Verfasser:	MacColm, Ian J. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Glasgow [u.a.] Hill 1983
Ausgabe:	1. publ.
Schlagworte:	Keramischer Werkstoff
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	X, 357 S. Ill., graph. Darst.
ISBN:	0412003511 0249441632

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MARC


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Datensatz im Suchindex

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adam_text	Ceramic Science for Materials Technologists I J McColm, B Sc, D Phil Senior Lecturer in Industrial Technology University of Bradford Leonard Hill Distributed in the USA by Chapman and Hall New York Contents 1 Traditional ceramics 1 1 1 Introduction 1 1 2 Study area defined 2 1 3 Role of heat—heat work 3 1 4 Translucency 4 1 5 Silicates - 6 151 Silicates and aluminosilicates containing isolated anion groups 9 152 Chain silicates 19 153 Sheet silicates 25 154 Framework silicates 33 155 Sodium silicates 42 156 Cements 44 157 Thermal transformations of ceramic raw materials—topotaxy 51 158 Phosphate-bonded refractories 58 References and further reading 61 2 Special light ceramics for modern applications 63 2 1 Analysis of a strength equation 63 211 Surface energy 63 212 Origin of Young s modulus 66 2 2 The covalent bond model 68 221 Nature of the problem 68 222 Matter waves 70 223 The wave nature of the atom 71 224 Atomic orbitals and their specification 72 225 Atom groundstates, aufbau principle and the periodic table 76 226 Valence bond description of covalent bonding 77 227 Molecular orbital theory of covalent bonding 82 2 3 Identification of potential high-strength materials 88 2 4 Boron 88 241 Structure and bonding 89 2 5 Carbon and graphite 91 251 Structure and bonding 93 252 Carbon fibres for engineering use 95 253 Graphite reactivity 96 2 6 Silicon 97 261 Preparation and structure 97 262 Hole conductivity 98 263 p-n junctions 99 vii Vlll CONTENTS 2 7 Boron carbide 100 271 Structure 100 2 8 Boron nitride 101 281 Preparation and properties of pyrolytic boron nitride 101 2 9 Boric oxide 103 2 10 Silicon carbide 104 2 10 1 Structure 105 2 10 2 Oxidation 106 2 11 Silicon nitride 107 2 11 1 Structure 107 2 11 2 Properties and fabrication 108 2 11 3 a-Silicon nitride and silicon oxynitride 110 2 11 4 Fabrication with silicon nitride 111 2 11 5 Densification aids in Si3N4 sintering 112 2 12 Sialons 114 2 12 1 Representation of the Si-Al-O-N system 115 2 12 2 Si-AI-O-N phase relationships 117 2 12 3 Sialon preparation 120 2 12 4 Metal-sialons 120 2 12 5 Nitrogen glasses 122 2 13 Realization of high strength and the development of toughness through fibre- composites 123 2 13 1 Composite elastic properties 125 2 13 2 Composite strength 126 2 13 3 Specific strength and specific stiffness 129 2 13 4 Composite toughness 130 References and further reading 131 3 Glass 132 3 1 Introduction 132 311 Definition 134 312 Viscosity 138 3 2 Structural models for glass 142 321 Zachariasen random network 143 322 Porai-Koshits crystallite model 147 323 Discrete-ion concept 148 324 Five-fold symmetry model 150 325 Goodman s strained mixed cluster model 151 3 3 Predictions of glass formation 152 331 Bond strength and type 153 332 Coordination environment 153 333 Strained mixed cluster model 153 334 Kinetics and concept of free volume 153 335 Cooling rate 156 3 4 Mechanical properties 158 341 Group 1: flawless glass 159 342 Group 2: flaws exist—how do they propagate? 160 343 Characterization of Griffith flaws 162 344 Fracture mechanics 165 345 Plastic flow in glass 167 346 Group 3: flaw generation hypotheses 169 347 Crack propagation and static fatigue 172 348 Methods of glass strengthening 178 349 Load-duration analysis for glass design 181 3 5 Glass/metal and glass/ceramic bonding 184 351 Technical procedures 184 352 Theories of adherence 187 353 The glass/metal interface 192 CONTENTS IX 3 6 Durability 194 361 General observations 195 362 Mechanisms and rate laws 197 363 Methods of corrosion protection 201 References and further reading 202 4 Glass-ceramics 204 4 1 Introduction 204 4 2 Technical processes 206 4 3 Nucleation 207 431 Homogeneous nucleation 207 432 Heterogeneous nucleation 210 433 Nucleant characteristics 212 4 4 Liquid phase separation in glass-forming systems 213 441 Occurrence of the spinodal region 215 4 5 Crystal growth 220 451 Screw dislocation mechanism for crystal growth 222 452 Spherulitic and dendritic crystal growth 223 4 6 Glass ceramics arising from control of process variables 224 461 Lithia-silica (Li2O-SiO2) system 224 462 Li2O-AI2O3-SiO2 system 225 463 MgO-Al2O3-SiO2 system 226 464 Na2O-Al2O3-SiO2 system 227 465 Tetrasilicic-mica machinable ceramics 227 4 7 Role of a residual glass phase 229 471 Strength 230 472 Control of fracture toughness and thermal shock resistance 230 473 Creep resistance 231 474 Optical transparency 232 4 8 Summary 233 References and further reading 233 5 Refractory oxide ceramics 235 5 1 Introduction 235 5 2 Prediction of environmental stability 238 5 3 The ionic bond 239 531 Production of isolated cations 239 532 Production of isolated anions 244 533 Coulombic attraction 245 534 Lattice energies 247 535 Kapustinskii equation 249 536 Polarization 253 537 Geometrical aspects of ionic bonds 254 5 4 Alumina, A12O3 257 541 Sources 257 542 Manufacture 257 543 Structure 260 544 a-Alumina 261 545 The ruby laser—a new use for an old material 267 546 l-Alumina 268 547 y-Alumina 272 5 5 Zirconia, ZrO2 272 551 Sources and manufacture 272 552 Bonding and structure 274 553 Mechanical properties 275 554 Problem of the monoclinic/tetragonal phase transition 275 555 Stabilized zirconia 278 556 Ceramic steel: a use for the zirconia phase change 282 CONTENTS 5 6 Magnesia, MgO 284 561 Sources and manufacture 284 562 Structure and strength 286 563 Role of impurities in magnesia 288 5 7 Urania, UO2 292 571 Source and preparation 293 572 Structure 293 573 Strength • 293 5 8 Titania, TiO2 295 581 Manufacture 295 582 Structure 296 583 Bonding 298 584 Mechanical properties 299 5 9 Spinels 299 591 Structure - 300 592 Factors determining degree of inversion 302 593 Preparation and reactivity 305 5 10 ABO3-type oxides 306 5 10 1 Structures 306 5 10 2 Properties 307 5 11 Ferrites 308 References and further reading 309 6 3 Silicides 344 References and further reading 345 Index 347 6 Special ceramics—refractory hard metals 6 1 Interstitial carbides and nitrides of classes 1 and 2 Preparation Compositions and non-stoichiometry Properties and uses Uses of cemented hard-metals Bonding 6 2 Borides Structures Non-stoichiometry Bonding and valency Preparation Properties Uses
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spelling	MacColm, Ian J. Verfasser aut Ceramic science for materials technologists I. J. McColm 1. publ. Glasgow [u.a.] Hill 1983 X, 357 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Literaturangaben Keramischer Werkstoff (DE-588)4030282-9 gnd rswk-swf Keramischer Werkstoff (DE-588)4030282-9 s DE-604 HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=000594491&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	MacColm, Ian J. Ceramic science for materials technologists Keramischer Werkstoff (DE-588)4030282-9 gnd
subject_GND	(DE-588)4030282-9
title	Ceramic science for materials technologists
title_auth	Ceramic science for materials technologists
title_exact_search	Ceramic science for materials technologists
title_full	Ceramic science for materials technologists I. J. McColm
title_fullStr	Ceramic science for materials technologists I. J. McColm
title_full_unstemmed	Ceramic science for materials technologists I. J. McColm
title_short	Ceramic science for materials technologists
title_sort	ceramic science for materials technologists
topic	Keramischer Werkstoff (DE-588)4030282-9 gnd
topic_facet	Keramischer Werkstoff
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