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1.

図書

図書
edited by Andrzej Wieckowski
出版情報: New York : Marcel Dekker, c1999  xviii, 966 p. ; 29 cm
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2.

図書

図書
Arthur W. Adamson and Alice P. Gast
出版情報: New York : Wiley, c1997  xxi, 784 p. ; 25 cm
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目次情報: 続きを見る
Capillarity
The Nature and Thermodynamics of Liquid Interfaces
Surface Films on Liquid Substrates
Electrical Aspects of Surface Chemistry
Long-Range Forces
Surfaces of Solids
Surfaces of Solids: Microscopy and Spectroscopy
The Formation of a New Phase-Nucleation and Crystal Growth
The Solid-Liquid Interface_Contact Angle
The Solid-Liquid Interface_Adsorption from Solution
Frication, Lubrication, and Adhesion
Wetting, Flotation, and Detergency
Emulsions, Foams, and Aerosols
Macromolecular Surface Films, Charged Films, and Langmuir-Blodgett Layers
The Solid-Gas Interface_General Considerations
Adsorption of Gases and Vapors on Solids
Chemisorption and Catalysis
Index
Capillarity
The Nature and Thermodynamics of Liquid Interfaces
Surface Films on Liquid Substrates
3.

図書

図書
edited by Nobuhiko Yui, Minoru Terano
出版情報: Tokyo : Kodansha Scientific Ltd., 1996  xi, 208 p. ; 25 cm
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4.

図書

図書
edited by Héctor D. Abruña
出版情報: New York ; Cambridge : VCH Publishers , Weinheim : VCH Verlagsgesellschaft, c1991  xviii, 589 p. ; 24 cm
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5.

図書

図書
editors, Jacek Lipkowski and Philip N. Ross
出版情報: New York, N.Y. : VCH Publishers, c1993  x, 406 p. ; 25 cm
シリーズ名: Frontiers of electrochemistry
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6.

図書

東工大
目次DB

図書
東工大
目次DB
Y. Horie and A.B. Sawaoka
出版情報: Tokyo : KTK Scientific, c1993  x, 364 p. ; 24 cm
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Preface
Chapter 1 INTRODUCTION
   1.1 The Nature of Shock Waves, 3
   1.2 Compaction of Powders and Shock Activation, 6
   1.3 First-Order Phase Transitions and Chemical Reactions, 10
   1.4 Time Scales and Interactions of Basic Mechanisms, 12
   1.4.1 Shock propagation in a particle assemblage, 12
   1.4.2 Energy localization, 12
   1.4.3 Thermal relaxation of hot spots, 14
   1.4.4 Mass diffusion in solids, 14
   1.4.5 Kinetic constants, 14
   1.5 Some Roles of Shock Compression Techniques in Material Sciences Study, 16
   1.5.1 Shock Compression Techniques as a tool of high pressure production, 16
   1.5.2 Appearance of diamond anvil-type high-pressure apparatus, 16
   1.5.3 New roles of Shock Compression Technology as a unique method of very high temperature production, 18
   1.5.4 Development of conventional hypervelocity impact techniques for precise measurement of materials under shock compression, 19
Chapter 2 FUNDAMENTALS OF SHOCK WAVE PROPAGATION
   2.1 Hydrodynamic Jump Conditions and the Hugoniot Curve, 23
   2.2 Shock Transition in Hydrodynamic Solids, 32
   2.3 Non-Hydrostatic Deformation of Solids, 42
   2.3.1 Elastic-ideally-plastic solids, 42
   2.3.2 Experimental observations of elastic-plastic behavior, 53
   2.4 Wave-body interactions, 56
   2.4.1 Preliminaries, 57
   2.4.2 Planar impact of similar and dissimilar bodies, 60
   2.4.3 Shock wave interaction with material boundaries, 61
   2.4.4 Wave-wave interactions, 65
   2.4.5 Detonation wave and interaction with a solid surface 66
Chapter 3 SHOCK COMPRESSION TECHNOLOGY
   3.1 Gun Techniques, 80
   3.1.1 Single stage gun, 80
   3.1.2 Conventional two stage light gas gun, 80
   3.1.3 Velocity measurement of projectile, 83
   3.1.4 Magnetoflyer method, 83
   3.1.5 CW x-ray velocity meter, 84
   3.1.6 Measurement of interior projectile motion, 86
   3.1.7 Recovery experiments, 87
   3.2 Explosive Techniques, 89
   3.2.1 Plane shock wave generation and recovery fixture、 89
   3.2.2 Numerical simulaation of shock compression in the recovery capsule, 91
   3.2.3 Cylindrical recovery fixture, 94
   3.3 In-situ Measurements, 95
   3.3.1 Manganin pressure gauge, 95
   3.3.2 Particle velocity gauge, 99
   3.3.3 Observations of multiple shock reverberations by using a manganin pressure gauge and particle velocity gauge, 100
   3.3.4 Shock temperature measurement, 106
   3.3.5 Copper-Constantan thermocouple as a temperature and pressure gauge, 111
Chapter 4 THERMOMECHANICS OF POWDER COMPACTION AND MASS MIXING
   4.1 A One Dimensional Particulate Model, 117
   4.2 Continuum Models, 123
   4.2.1 Hydrodynamic models, 124
   4.2.2 Continuum plasticity theory, 141
   4.2.3 Application, 148
   4.3 Particle Bonding and Heterogeneous Processes, 154
   4.4 Mass Mixing, 160
Chapter 5 THERMOCHEMISTRY OF HETEROGENEOUS MIXTURES
   5.1 Thermodynamic Functions of Heterogeneous Mixtures, 172
   5.2 Analytical Equations of State, 187
   5.3 Hugoniots of Inert Mixtures, 191
   5.3.1 Thermodynamically equilibrium models, 191
   5.3.2 Mechanical models, 197
   5.4 First-Order Phase Transitions, 199
   5.5 Chemical Equilibria, 206
   5.6 Reaction Kinetics, 212
   5.6.1 Rate equations, 212
   5.6.2 Nucleation, 214
   5.6.3 Growth, 216
   5.6.4 Pressure effects, 217
   5.7 Shock-Induced Reactions in Powder Mixtures, 218
Chapter 6 HYDRODYNAMICAL CALCULATIONS
   6.1 Conservation Equations of Continuum Flow, 227
   6.1.1 Mass conservation, 228
   6.1.2 Conservation of linear momentum, 230
   6.1.3 Enegy conservation, 231
   6.2 Constitutive Modeling of Inorganic Shock Chemistry, 234
   6.2.1 VIR model, 235
   6.2.2 Pore collapse, 239
   6.2.3 Chemical kinetics, 239
   6.2.4 Computational constitutive reactions, 240
   6.3 Applications of the VIR Model, 245
   6.3.1 Shock wave profiles in Ni/Al powder mixtures, 245
   6.3.2 Compaction of diamond with Si and graphite, 250
   6.4 Continuum Mixture Theory and the VIR Model, 257
   6.4.1 Continuum mixture theory, 257
   6.4.2 Derivation of the VIR model using the CMT, 263
   6.4.3 A model of heterogeneous flow, 269
Chapter 7 SHOCK CONDITIONING AND PROCESSING OF CERAMICS
   7.1 Shock Conditioning of Powder of Inorganic Materials, 277
   7.1.1 Brief review of shock conditioning studies, 277
   7.1.2 Aluminum oxide powder, 277
   7.2 Shock Synthesis of Inorganic Materials, 281
   7.2.1 Shock synthesis studies, 281
   7.2.2 High dense forms of carbon, 281
   7.2.3 High dense forms of boron nitride, 285
   7.2.4 Shock treatment of boron nitride powders, 287
   7.3 Shock Consolidation of Ceramic Powders, 301
   7.3.1 Why non-oxide ceramics?, 301
   7.3.2 Dynamic consolidation of SiC powders, 302
   7.3.3 Approach to the fabrication of crack free compacts, 304
   7.3.4 Shock consolidation of SiC powder utilizing post shock heating by exothermic reaction, 305
   7.4 Dynamic Compaction of Zinc Blende Type Boron Nitride and Diamond Powders, 310
   7.4.1 Back ground, 310
   7.4.2 Cubic boron nitride, 311
   7.4.3 Diamond, 318
   7.4.4 Diamond composites obtained by utilizzing exothermic chemical reaction, 326
   7.5 Very High Pressure Sintering of Shock Treated Powders, 332
   7.5.1 Silicon nitride, 334
   7.5.2 w-BN, 336
   7.6 Rapid Condensation of High Temperature Ultrasupersaturated Gas, 347
   7.6.1 Silicon nitride, 347
   7.6.2 Carbon, 352
Index, 361
Preface
Chapter 1 INTRODUCTION
   1.1 The Nature of Shock Waves, 3
7.

図書

図書
Henry Wise, Jacques Oudar
出版情報: San Diego ; Tokyo : Academic Press, c1990  ix, 260 p. ; 24 cm
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8.

図書

図書
John O'M. Bockris and Shahed U.M. Khan
出版情報: New York : Plenum, c1993  xxxii, 1014 p. ; 26 cm
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9.

図書

図書
R. Wiesendanger, H.-J. Güntherodt (eds.) ; with contributions by W. Baumeister ... [et al.]
出版情報: Berlin ; New York : Springer-Verlag, c1992  xiv, 308 p. ; ill. : 24 cm
シリーズ名: Springer series in surface sciences ; 28 . Scanning tunneling microscopy ; 2
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10.

図書

図書
edited by Hiroyuki Ohshima, Kunio Furusawa
出版情報: New York : M. Dekker, c1998  xiii, 628 p. ; 26 cm
シリーズ名: Surfactant science series ; v. 76
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目次情報: 続きを見る
Fundamentals: electrical double layer
Electrokinetics
Interaction of electrical double layers
Electrocapillarity and double layer structure
DLVO theory of colloid stability
Concentrated dispersion
Nonaqueous systems
Measurements: Electrophoresis
Electroosmosis and streaming potential
Sedimentation potential and flotation potential
Surface potential measurements of monolayer
Capillary electrophoresis - revisit to capillary
Dynamic electrophoresis
Surface conductivity of
Fundamentals: electrical double layer
Electrokinetics
Interaction of electrical double layers
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