Molecular and Chemical Physics, Chemistry, Biological Effects, Geo and Planetary Sciences, New Resources, Dynamic Pressures, High Pressure Safety
Proceedings of the VIIth International AIRAPT Conference (Organised Jointly with the EHPRG), Le Creusot, France, July 30 - August 3, 1979
- 1st Edition - January 1, 1980
- Imprint: Pergamon
- Editors: B. Vodar, Ph. Marteau
- Language: English
- eBook ISBN:9 7 8 - 1 - 4 8 3 1 - 4 8 5 2 - 6
High Pressure Science and Technology, Volume 2 contains the proceedings of the Association Internationale for Research and Advancement of High Pressure Science and Technology's… Read more
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Request a sales quoteHigh Pressure Science and Technology, Volume 2 contains the proceedings of the Association Internationale for Research and Advancement of High Pressure Science and Technology's VIIth International Conference held in Le Creusot, France, from July 30 to August 3, 1979. The papers explore a wide range of topics relating to high pressure science and technology, including molecular and chemical physics; melting and dense fluids; liquid crystals; molecular thermophysical properties; light scattering; intermolecular spectroscopy; high-temperature, high-pressure fluids; and properties of earth materials. This volume is comprised of 128 chapters and begins by calculating equations of state for static molecular and metallic hydrogen using the density functional method. The following chapters discuss the effect of density on the induced near infrared absorption spectrum of solid molecular hydrogen at 4.2 K; vibrational relaxation in highly compressed hydrogen; the dual melting curves of carbon tetrachloride; and the statistical theory of polymorphic phase transitions and crystallization. Alkane chain conformation as a function of pressure is also examined, along with high pressure thermodynamics and phase equilibria of fluid mixtures. The remaining sections focus on the lithosphere, athenosphere, and the behavior of dense materials. This book will be a valuable resource for materials scientists, metallurgists, physicists, chemists, and mechanical engineers.
Volume 2
VI Molecular and Chemical Physics
Hydrogen and Light Elements
VI.1.1 Molecular and Metallic Hydrogen. A Unified Density Functional Approach
VI.1.2 Effect of Density on the Induced near Infrared Absorption Spectrum of Solid Molecular Hydrogen at 4.2 K
VI.1.3 Melting of 4He at Room Temperature
VI.1.4 Sound Velocity and Equation-of-State Measurements in High Pressure Fluid and Solid Helium
VI.1.5 Solid Nitrogen at Pressures up to 410 kbar
VI.1.6 Neutron Diffraction Study of Solid Parahydrogen at Pressure up to 5 kbar
VI.1.7 Equation of State for Non-Transitional Metals and Metallic Hydrogen
VI.1.8 Properties of H2, Kr and Xe Insulator Hydrides
VI.1.9 Experimental Study of the Vibrational Relaxation (V-T) in Highly Compressed Hydrogen
VI.1.10 Ultrasonic Velocity Ratio Measurements in Solid Hydrogen to Pressures in Excess of 60 kbar
Melting and Dense Fluids
VI.2.1 The Dual Melting Curves of Carbon Tetrachloride
VI.2.2 Triplet Interactions in Dense Noble Gases
VI.2.3 The Phase Diagram of Ethane under High Pressure
VI.2.4 The Coexistence Surface of Neon-Xenon near the Critical Double Point
VI.2.5 On the Statistical Theory of Polymorphic Phase Transitions and Crystallization
Liquid Crystals
VI.3.1 Liquid Crystals and Plastic Crystals at High Pressure
VI.3.2 Equation of State of Orientationally Disordered Solids and Internal Phonon Radiation Pressure
VI.3.3 Elliptic Phase Boundaries Between Nematic and Smectic Phases
VI.3.4 Smectic Polymorphism of Some Bis-(4,4'-n-Alkoxybenzylidene)-1,4-Phenylenediamines up to 3 kbar by Differential Thermal Analysis (DTA)
VI.3.5 Alkane Chain Conformation as a Function of Pressure
VI.3.6 Dielectric Constant and PVT Measurements on Plastic Crystals at Low Temperatures to 3000 bar
VI.3.7 Equation of State of Crystalline and Semicrystalline Polymers
Molecular Thermophysical Properties
VI.4.1 High Pressure Thermodynamics and Phase Equilibria of Fluid Mixtures: Survey and Recent Results
VI.4.2 Thermophysical Properties of Noble Gases at Room Temperature up to 1 GPa
VI.4.3 The Electrical Conductivity of Molten Alkali Metal Halides at High Pressures
VI.4.4 The Effects of Isotopic Substitution in the Diffusion of Water under Pressure
VI.4.5 Correlation of the Glass Transition and the Pressure Dependence of Viscosity in Liquids
VI.4.6 The Viscosity of Argon at Pressures up to 9 kbar
VI.4.7 PVT Relations for HBr-H2O Mixtures up to 550°C and 1500 bar
VI.4.8 PVT Study near the Critical Point of a Pure Substance
VI.4.9 The Effect of Pressure on the Velocity of Sound in Toluene up to 2600 bar
VI.4.10 Analysis of Formal Definition of the Fugacity
Light SCattering
VI.5.1 Study of the Pressure Induced Multicritical Point of NH4 Cl by Second Harmonic Generation of Light
VI.5.2 Rayleigh and Raman Depolarized Light Scattering by Isotropic Molecules
VI.5.3 The Depolarization Factor of Light Scattered from Xenon near its Critical Point
Intermolecular Spectroscopy
VI.6.1 Recent Progress in Infrared, Raman and Rayleigh Spectroscopy of Molecular Interactions in Dense Fluids
VI.6.2 Anharmonic Lattice Vibrations in Solid α and γ-Ν2
VI.6.3 Pressure Dependence of Nuclear Quadrupole Resonance Frequencies in Ionic and Molecular Solids
VI.6.4 Far Infrared Spectroscopy of Molecular Interactions under Pressure
VI.6.5 Far-Infrared and Raman Study of Solid CH4 under High Pressure
VI.6.6 Pressure Dependence of the Absorption Spectrum of ß Carotene
VI.6.7 Effect of Hydrostatic Pressure on the Exiton Absoption Spectra of Cu2O Crystals
VI.6.8 Studies on Solid NH3 and CO2 to 11 GPa
VI.6.9 The Effect of Pressure on the Raman Spectrum of NH4I
VI.6.10 Matrix-Isolation-Raman-Spectroscopy at High Pressure and at Low Temperature
VI.6.11 Spectroscopic Studies of Local Centers in Crystals under Hydrostatic Pressure at Low Temperatures: O2 Ions in Alkali Halides
High Temperature, High Pressure Fluids
VI.7.1 High Pressure Plasma Research
VI.7.2 PVT Data of Water and Concentrated NaCl Solutions to 600°C and 4 kbar
VI.7.3 High Pressure Studies of Liquid Bismuth and Liquid Lead
VI.7.4 Thermal Conductivity and Density Measurements of Liquid Mercury
VII Chemistry
Organic Chemistry
VII.1.1 Progress in High Pressure Assisted Organic Synthesis
VII.1.2 High Pressure High Resolution Nuclear Magnetic Resonance: Pressure Dependence of the Hindered Rotation of the Amide-Group in Higher Amides
VII.1.3 The Decomposition of Di-Tert. Butylperoxide at High Pressures and Temperatures
VII.1.4 Pairing under Pressure
VII.1.5 Positive and Negative Activation Volumes in the Dealdolization of Diacetone Alcohol at High Pressure
VII.1.6 The Q-e Scheme and the Pressure Dependence of Reactivity Ratios in Free Radical Multicomponent Polymerizations
VII.1.7 Effect of High Pressure on the Rate of Electrode Reaction of Metal Complex
VII.1.8 High Pressure Radical Polymerization of Ethylene by Means of a Tubular Reactor the Preheater of which is Replaced by an Autoclave Reactor in which Polymerization Takes Place
VII.1.9 Effect of Pressure on the Rate of Liquid Phase Isomerization of Diethyl Maleate to Diethyl Fumarate over a Solid Base Catalyst
Chemistry and Combustion
VII.2.1 High Pressure Gas Phase Combustion
VII.2.2 Combustion of Lean Gas under Pressure
VII.2.3 The Interpretation of Volumes of Activation of Chemical Reactions in Solution
VII.2.4 N.I.R. Spectroscopic Determination of Reaction Volumes of Hydrogen Bonding Equilibria
VII.2.5 High Pressure Synthesis of Dihydropyranes and Derivatives
VII.2.6 Radical Polymerizability of N-(3,5-di-tert-butyl-4-Hydroxy)-Benzylacrylamide under High Pressure
VII.2.7 Infrared Spectroscopic Flow Reactors for Solid-Fluid Reactions at High Temperature and Pressure
VIII Biological Effects
VIII.1.1 High Pressure Stopped-Flow Studies of Fast Conformational Changes in Proteins
VIII.1.2 The Effect of High Pressures Upon Protein-Ligand Complexes
VIII.1.3 Lysogenic Bacteria under High Pressures
VIII.1.4 Effects of Helium Pressure on Biological Membranes. A Pharmacological Approach to the High Pressure Nervous Syndrome
IX Geo & Planetary Sciences
Lithosphere
IX.1.1. A study of Velocity and Absorption of Elastic Waves in Rocks at High Pressures and Temperatures
IX.1.2 Experimental Observations of Polymorphic Transitions in Calcite under High Pressure
IX.1.3 Internal Friction in Terrestrial Rocks at High Pressures
IX.1.4 The Role of Water in Quartz Deformation
IX.1.5 Experimental Study of Pressure Effect on the Viscosity of Hydrous Magmatic Melts
IX.1.6 Diffusion Coefficients for Major Petrogenic Oxides and Some Components of Fluid in a Water-Albite Melt at High Pressures and Temperatures
Athenosphere
IX.2.1 Some new Theoretical Results on the Gruneisen Parameter
IX.2.2 Seismic Anisotropy of the Clinopyroxenes, Olivines and Garnets at High Pressure
IX.2.3 Shape of the Selected Phase Separation Surfaces in Some Areas Within the Earth1s Mantle
Various Properties of Earth Materials
IX.3.1 Electrical Conductivity Measurements on Pyroxenes and Olivines under Thermodynamically Defined Conditions
IX.3.2 Raman Spectra and Structure of Stishovite
IX.3.3 Analysis of the Concomitant Density and Refractive Index Changes Produced by Pressure, Temperature and Neutron Irradiation in Silica Glass and Quartz
IX.3.4 Changes of the Elastical and Structural Characteristics of Quartz at High Pressure and Temperature
IX.3.5 Etude par Analyse Thermique Différentielle sous Hautes Pressions et Basses Températures des Changements d'Etat de Corps Dispersés
X New Resources
X.1.1 In Situ Fracture Related to Energy and Resource Recovery
X.1.2 Appareillage pour l'Etude du Comportement des Roches à Kérogène sous Pression en Fonction de Différents Facteurs
X.1.3 Explosive-Induced Damage in Porous Sandstone
X.1.4 Applications of Hot Isostatic Pressing for Radioactive Waste Containment in Synthetic Minerals
XI Dynamic Pressures
Theoretical Aspects
XI.1.1 High-Pressure and High-Temperature Behavior of Simple and Complex Molecular Liquids
XI.1.2 High Pressure Effects on the Molecular Electronic Structure of Condensed Explosives
XI.1.3 Thermodynamical Expressions for the Parameters of the Linear Relationship Us = a+bUp
XI.1.4 Courbes de Fusion à Haute Pression et Coefficient de Gruneisen pour Quelques Métaux
XI.1.5 Equation of State for Quadratic Materials
XI.1.6 Calcul des Polaires de Choc des Corps à Structure Isotrope Compacte à l'Aide du Potentiel de Morse
XI.1.7 Détermination Thermodynamique de la Loi d'Evolution de la Porosité, pour un Matériau Ductile Poreux
Experimental Techniques
XI. 2.1 Some New Developments in Shock Wave Research
XI.2.2 Laser-Generated Shock Wave Experiments at Extreme High Pressures
XI.2.3 Laser Driven Shock-Waves and Twinning in Iron
XI.2.4 Impedance-Match Experiments Using Laser-Driven Shock Waves
XI.2.5 Crystal Lattice Deformation of Sodium Chloride Subjected to a Shock Wave
XI.2.6 Flash X-Ray Diffraction Studies to 100 GPa
XI.2.7 Prospects for Generating 1-10 TPa Pressures With a Rail Gun
XI.2.8 The Electric Gun: A New Method for Generating Shock Pressures in Excess of 1 TPa
XI.2.9 Thermoshock Generation in Solids Irradiated by an Intense Pulsed Relativistic Electron Beam
XI.2.10 High Velocity Plane Launching by Multiple Staging Device
XI.2.11 Hugoniot Measurements near 50 Mbar
XI.2.12 Numerical Calculations of Explosion-Induced Compression of Matter in Conical System
XI.2.13 Production of Super-High Loads of Matter in Conical Explosion Systems
Behavior of Dense Materials
XI.3.1 Hugoniot Elastic Limits and Compression Parameters for Brittle Materials
XI.3.2 Metallographic Investigations on Phase Transitions in Impact Loaded Steels
XI.3.3 Détermination Expérimentale du Comportement Elasto-Plastique, Sous Choc, d'un Verre
XI.3.4 Elastic and Plastic Properties of Uranium Dioxide from 5 to 330 GPa
XI.3.5 Impact Induced Tensile Failure in Steel
XI.3.6 Electrical Activity in Shock-Loaded Polymers
XI.3.7 Possible Shock-Induced Phase Transition in Ca2Ge O4, Deduced from Electrical Conductivity Measurements
XI.3.8 Shock Compression of Liquid Methane and the Principle of Corresponding States
XI.3.9 Electrical Conductivity of Shocked Water and Ammonia
XI.3.10 Thermal Relaxation in a Liquid under Shock Compression
XI.3.11 Measurements on the Hugoniot of Samarium
XI.3.12 Ferroelectric Ceramics : Energy Conversion under Shock Wave
XII High Pressure Safety
XII.1.1 Assessment of the Fragment Hazard from Rupture of HP Vessels
XII.1.2 Safety Aspects of Design, Manufacture and Operation of Forged Vessels for High Pressure Service
XII.1.3 Protection des Appareils Hautes Pressions par Rideaux Métalliques Flexibles
XII.1.4 Probability of the Earthquake Initiated by the Phase Transformation from the Metastable State
XII.1.5 Explosive Containment
Post Deadline Papers
P.1. Shock Wave Data and the Composition of the Earth's Core
P.2. A New Method for Preparing Cubic Boron Nitride
P.3. Elasticity and Phase Transformations in Rutile-Structured Compounds
P.4 Raman Spectra of Supercritical Phases and Crystalline Solids of n-H2 and n-D2 under very High Pressures
Author Index
Subject Index
Volume 1
Preface
P.W. Bridgman Award
P.W. Bridgman Address: Some Molecular Interactions and High Pressure Studies; 1939 - 1979
Committees
Plenary Lectures
L.1 Metal-Insulator Transitions at High Pressures
L.2 High Pressure Luminescence Studies
L.3 Design of the Diamond-Window, High Pressure Apparatus for Cryogenic Experiments
L.4 Fluid Mixtures under Pressure
L.5 Solubility Considerations at the Center of Jupiter
L.6 Machining, Mining and Demolition Using High Pressure Water Jets
L.7 Some Aspects of Pressure Effects on Chemical Reactions
L.8 EXAFS, A Tool for Structure Determination
L.9 Megabar Pressures, Dielectric-to-Metals Transitions and Superconductivity of New Metals
L.10 Man in the Deep Sea
L.11 Present Problems of High Pressure Geophysics
L.12 Underground Coal Gasification at High Pressure
L.13 Geochemical Precursors of Earthquakes
L.14 Theories of Intermolecular Forces
L.15 Photonic Compression
L.16 Use of Relativistic Electrons Beams (REB) for Compressing the Matter
L.17 Nuclear Fusion in Dense Stellar Matter
I Instrumentation and Technology
Very High Pressure Anvil Devices
I.1.1 Megabar Pressures in Submicron Volumes
I.1.2 High Temperature - High Pressure Studies in a Sliding Anvil Apparatus
I.1.3 New Hydrostatic Pressure Cell: Use of Pb - Resistivity for Pressure Determination from 300-1 K
I.1.4 High Pressure X-Ray Diffractometer Using a Position Sensitive Detector Combined With a Diamond Anvil Cell
I.1.5 X-Ray Diamond Anvil Cell and Pseudo-Kossel Line Pattern
I.1.6 X-Ray Intensity Measurements of Powdered Samples in a Gasketed Diamond Anvil Cell
I.1.7 A Stress Apparatus for Single Crystal X-Ray Diffraction on a Four-Circle Diffractometer and its Application on Silicon
I.1.8 Diamond Anvil Techniques for Structural Electrical/Magnetic Measurements at low Temperature
I.1.9 Selection of Diamonds for Raman Scattering in Diamond Anvil Cells
I.1.10 X-Ray Diffraction on Single Crystals under Pressure
I.1.11 Real Structure of Si Single Crystals Subjected to High Hydrostatic Pressure and Temperature. X-Ray and Electron Microscopy Methods
High Pressure Vessels and Techniques
Ι.2.1 A 15 kb - 1500°C Gas Research Unit for Petrological and Geophysical Applications
I.2.2 A High Pressure-Pressure-Jump Relaxation Technique
I.2.3 Generator of Triangular Pressure Pulse up 500 MPa
1.2.4 The Profilometry Technique for Measuring the Yield Strength of Hard Materials
I.2.5 Some Materials Used for Construction of Forged Vessels for High Pressures in the U.S.A.
I.2.6 Appareil d'Analyse Thermique Differentielle à Haute Pression et Haute Température
II Metrology and Accurate Data
Acute X-Ray Data
II.1.1 Energy Dispersive Type X-Ray Diffraction at High Pressure: Application to Kinetics of High Pressure Phase Transformation
II.1.2 X-Ray Energy Dispersive Diffractometry Using Profile Analysis for High Pressure Experiments
II.1.3 Compressibility Measurements of Heavy Metals by Energy-Dispersive X-Ray Diffraction in the Diamond-Anvil Cell
II.1.4 Structural Information and its Reliability in High Pressure X-Ray Diffraction Data
Calibration, Evaluation and Accurate Data
II.2.1 Methods of Measuring Specific Heat of Solids at High Pressure (a Review)
II.2.2 Stress Induced Anisotropy in Lattice Thermal Conduction
II.2.3 Dielectric Permittivity Measurements as an Aid in Determining Pressure and Density in High Pressure Studies
II.2.4. The Pressure Calibration System of the B.N.M.
II.2.5 The Piezothermal Method Applied to Molecular Organic Compounds and Water
II.2.6 High Pressure Documentation and Evaluation of Data
High Pressure Scale
II.3.1 Absolute High Pressure Measurements
II.3.2 Effect of the Fluid Viscosity, RPM and Piston Configuration on Performance of Controlled-Clearance Deadweight Testers
II.3.3 Homogenous Stress Conditions in the Diamond Anvil Cell: An Application to GaP under High Pressure
II.3.4 Mercury Melting Line Determination Up to 1200 MPa by the Electrical Resistance Method
II.3.5 Friction Corrections in a Piston Cylinder Device
Fixed Points and Equations of State
II.4.1 Does Diamond Melt?
II.4.2 Thermal Expansion of Sodium Chloride up to 32 kbar and 500°C
II.4.3 Calibration of the High Pressure Scale
II.4.4. Contributions of Shock-Wave Physics to High Pressure Standards
III Mechanical Properties and Applications
Mechanical Properties
III.1.1 Failure Criteria in Brittle Solids under Complex Loading
III.1.2 Evolution of Dislocation Structure under the Influence of Anisotropic Compression Effects
III.1.3 Elastic Properties of Cerium under Pressures up to 8.4 GPa and Temperature 293 K
III.1.4 Pressurization and Yielding of Polycrystalline Niobium: Some New Data
III.1.5 Slip Generation and Distortion of Cubical Cavities in LiF Single Crystals by Pressurization
III.1.6 High Hydrostatic Pressure Effect on Dislocation Mobility in Alkali Halides
III.1.7 Deformation Hardening and Dislocation Double Transverse Slip under Plastic Deformation of Hydrostatically Compressed NaCl Single Crystals
III.1.8 Tensile and Compressive Strengths of Uniaxially-Aligned Carbon Fiber-Nickel Composite under Superposed Hydrostatic Pressure
III.1.9 Failure of Carbon Fiber Reinforced Plastic under Superposed Pressure in Three-Point Bending
III.1.10 Higher Order Elastic Properties of Some Zinc Blende and Rocksalt Semiconductors
III.1.11 Elastic Properties of the NaCl Single Crystal at Pressures up to 9 GPa and Temperature 293 K
III.1.12 On Cold Sintering under High Pressure
III.1.13 Thermoactivation Parameters and Dislocation Behavior at Creep under High Hydrostatic Pressure
III.1.14 Experimental and Numerical Determination of Stress and Flow Patterns in Large Axial Compression of Aluminum Cylinders
Forming
III.2.1 Production of Hollow and Solid Profiles of Aluminum Alloys by Hydrostatic Extrusion
III.2.2. Influence du Filage Hydrostatique sur les Propriétés Supraconductrices des Conducteurs à Ame Multiple Bronze-Niobium
III.2.3 Formage Superplastique de l'Alliage de Titane TA 6V pour la Fabrication de Reservoirs sous Pression
Hot and Dynamic Compaction Explosive Welding, Jet Cutting etc.
III.3.1 Hot Isostatic Pressing, Characteristics and Prospects in Industrial Use
III.3.2 Dynamic Compaction by a High Speed Punch to Produce Inter-Particle Melting
III.3.3 Hot Isostatic Pressing as an Alternative to Forging
III.3.4 Deformation of CIP/HIP-1 Beryllium under Shock Compression
III.3.5 Molten Pockets at the Interface of Explosive-Bonded Couples
III.3.6 A Contribution to the Explosive Welding of Metals
III.3.7 Metal Piercing and Fracture of Brittle Materials Using Pulsed Water Jets
IV Solid State Physics
Phase Transitions in Solids
IV.1.1 The Determination of Composition-Temperature-Pressure Phase Diagrams of Binary Alloy Systems
IV.1.2 Superconductivity of NaCl at High Pressure
IV.1.3 The High Pressure Induced Phase Transformations in Ti-V and Ti-Mo Alloys
IV.1.4 Pressure Effect on the Phase Limits of A 15 Compounds
IV.1.5 Anisotropic Lattice Compression of the L1O - Type Ordered Alloys
IV.1.6 Crystallization of Germanides and Gallides of Transition Metals under High Pressure and Temperature
IV.1.7 Structural Phase Transition in Iodine at High Pressure
IV.1.8 The Electrical Resistance Behavior of Iodine at High Pressure and Low Temperature
IV.1.9 Optical Microscopic, X-Ray Diffraction and Electrical Resistance Studies of CuCl at High Pressure
IV.1.10 Stability of CuCl-11 at elevated Pressures and Reduced Temperatures
IV.1.11 Pressure Effect on Excitonic Solids
IV.1.12 A Comprehensive Rule of Pressure Induced Phase Transformations in Ternary Oxides
IV.1.13 Polymorphism under Pressure of Some M2 A2 O7 Compounds: Effect of the Change of M and A Cations on the Sequence of Structures
IV.1.14 The Influence of Hydrostatic Pressure on the Phase Transition of (Bax - Sr1-x)Nb2O6 Single Crystals
IV.1.15 The Effect of High Pressure On Mictomagnetic and Superparamagnetic Properties of Alloys Mn Bi
Magnetism
IV.2.1 Combined Pressure-Effects on the Curie Temperatures from the Itinerant and Localized Electron Magnetisms in Mn5 X2 Bi4 (X = Rh or Pd)
IV.2.2 Magnetic Properties of Anomalous Rare Earth Systems under Pressure
IV.2.3 Magnetic Analysis on Ni-Mn Systems during Phase Transitions in Gaseous Hydrogen up to 10 kbar
Transport Properties in Solids
IV.3.1 High Pressure Modifications of Amorphous Semi-Conductors
IV.3.2 High Pressure Studies of Ionic Conductivity in Solids
IV.3.3 Electrical Behavior of Te, Se, S, Si and I to Pressures of about 500 kbar and Temperatures down to 2.7 K
IV.3.4 The Role of Pressure in the Study of Transport Properties of Solids8
IV.3.5 Electron Transport in Germanium at High Pressures
IV.3.6 Effect of Uniaxial Stress and Orientation Relation with High-Pressure Structures at the Transition of A4, B1 and B3 Type Crystals
IV.3.7 Pressure Effects on the Dehancement of Gold Diffusivity in Lead
IV.3.8 Theory of the Pressure Dependence of the Lattice Thermal Conductivity
IV.3.9 Thermal Conductivity of Some Metals under Pressure
IV.3.10 Thermal Properties and Phase Transitions in Ammonium Chloride
Phonons
IV.4.1 Neutron and X-Ray Scattering Studies of Magnetic and Electronic Transitions
IV.4.2 The Influence of Pressure on the Phonon and Electron Structures of Some Solids
IV.4.3 The Phase Diagram of the Mercury (I) Halides
IV.4.4 High Pressure Studies of Ferroelectric Lead Barium Germanate
IV.4.5 The Elastic Moduli and Their Pressure Derivatives for Gallium and Indium Phosphide
IV.4.6. The Gruneisen Parameter of Sodium and Potassium at High Compressions
Optical Properties of Semi-Conductors
IV.5.1 Optical Studies of GaS under High Pressure
IV.5.2 Optical Properties of InP under Hydrostatic Pressure
IV.5.3 Systematics for the Elements, K through Ra, of the Pressure Dependence of the Electron Density at the Nucleus
IV.5.4 Optical Properties of Orpiment As2S3 under High Pressure
EXAFS
IV.6.1 X-Ray Absorption at High Pressures
IV.6.2 EXAFS Measurement and K-Absorption Edge Spectrum of High Pressure Metallic Phase of GaAs
V Materials Synthesis
Superhard Solids
V.1.1 Production of Boron Nitride Cutting Tools and its Physical Properties
V.1.2 Growth of Large Diamond Crystals
V.1.3 Sintering Mechanism of Diamond
V.1.4 Growth of Peculiar Shape Crystals of Diamond
Oxides and Other Compounds
V.2.1 Synthesis of Pyrochlore-Type Compounds at High Pressure and Oxidation Atmosphere
V.2.2 High Pressure Synthesis of Rare Earth Monoxides
V.2.3 Synthesis of Pure Trigonal Carbonates under Pressure in Igneous Phase
V.2.4 The System SiO2-GeO2 at Pressures up to 100 kbar
V.2.5 Effect of Pressure and Hydroxyl Content on the Kinetics of Crystallization of Fused Silica
V.2.6 The Polymorphism of Sn Te and CdS at High Pressures
V.2.7 Polymorphism of Magnesium Hydride under High Pressure
V.2.8 Generation of High Oxygen Pressure by the Decomposition of Oxidizing Acids or NH4ClO4 under Hydrothermal Conditions: Applications to the Preparation of CrO2
V.2.9 Etudes de Solubilité et de Recristallisation Hydrothermale de la Berlinite (AlPO4) en Solution d'Acide Orthophosphorique (H3PO4)
V.2.10 Physical and Chemical Properties of Some Palladium Fluorides under High Pressures
V.2.11 High Pressure Synthesis of VP4
V.2.12 Some Chemical Transformations in Organic Solids
- Edition: 1
- Published: January 1, 1980
- No. of pages (eBook): 557
- Imprint: Pergamon
- Language: English
- eBook ISBN: 9781483148526
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