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Bison
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SEL Reference QC61.A5 1972 |
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Title: |
AMERICAN INSTITUTE OF PHYSICS HANDBOOK, 3rd ed. |
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Author: |
D.E. Gray, McGraw-Hill Book Co., 1972 |
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Properties: |
Acoustical; Crystallographic; Electrical; Magnetic; Mechanical; Optical; Radioactive; Thermal |
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Materials: |
Elements; General chemicals; Nuclides; Semiconductors; Superconductors |
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Identifiers: |
Attenuation of sound; Characteristic impedence; Coefficient of friction; Compressibility; Critical density; Critical pressure; Critical temperature; Curie temperature; Density; Dielectric constant; Differential volume; Diffusion coefficient; Dissociation energy; Elastic coefficient; Elastic constant; Elongation; Enthalpy; Entropy; Equilibrium internuclear distance; Extinction coefficient; Hall constant; Hardness; Heat capacity; Heat of combustion; Heat of formation; Lattice constant; Modulus of elasticity; Modulus of rigidity; Molar heat constant; Neel temperature; Poisson's ratio; Pressure; Reduction; Reflectance; Refractive index; Relative volume; Rotation-vibration interaction constant; Saturation magnetization; Shear strength; Specific rotation; Specific volume; Speed of sound; Stress; Surface tension; Tensile strength; Thermal conductivity; Thermal expansion; Thermocoupling temperature; Total emittance; Transition heat; Transition pressure; Transition temperature; Vapor pressure; Vibrational frequency; Virial coefficient; Viscosity; Wave velocity; Wavelength; Yield point; Yield strength |
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Note: |
This handbook covers such subjects as solid state physics, atomic and molecular physics, nuclear physics, heat, optics, electricity, and magnetism, mechanics and acoustics. Emphasis is placed on materials such as semiconductors, ionic crystals, nuclides, superconductors, metals, transducer materials and dielectrics. An excellent bibliography on SI units as it applies to mathematics is presented at the beginning of the handbook. |
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Bison
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SEL Reference TN690.B528 1990 |
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Title: |
BINARY ALLOY PHASE DIAGRAMS, 2nd ed., vols. 1-3 |
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Author: |
T.B. Massalski, ASM International, 1990 |
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Properties: |
Crystallographic; Magnetic; Thermal |
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Materials: |
Alloys; Elements |
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Identifiers: |
Atomic weight; Crystal structure; Curie temperature; Enthalpy; Entropy; Heat capacity; Lattice parameters; Melting points; Neel temperature; Pearson symbol; Phase diagrams; Phase transition temperature; Saturation magnetic moment; Space group; Stability; Transformation temperature |
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Note: |
This book presents phase diagrams for binary alloys. Each entry may consist of the assessed phase diagram, an abridged version of published text, a special points table, a crystal structure table and a list of selected key references on which the phase diagram has been based. Diagrams are plotted in both atomic and weight percentages, with temperature values given in Celsius. Alloy system identification lists the major component metal first. |
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Bison
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SEL Reference TA403.H3 1974 v.1 |
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Title: |
CRC HANDBOOK OF MATERIALS SCIENCE, vol. 1 |
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Author: |
C.T. Lynch, CRC Press, 1974 |
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Properties: |
Acoustical; Electrical; Mechanical; Physical; Thermal |
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Materials: |
Elements; General chemicals; Inorganic chemicals; Metals |
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Identifiers: |
Activity coefficient; Atomic weight; Boiling point; Coefficient of cubical expansion; Coefficient of friction; Coefficient of thermal expansion; Density; Dielectric constant; Dipole moments; Dissociation constant; Elasticity modulus; Enthalpy; Entropy; Flammability; Flash point; Freezing point; Hardness; Heat capacity; Heat of formation; Heat of fusion; Heat of transition; Ionization potential; Magnetic susceptibility; Melting point; pH values; Photoelectric work function; Radioactive trace diffusion data; Refractive index; Sound absorption; Specific gravity; Surface tension; Temperature of transition; Thermal conductivity; Thermal neutron absorption; Thermionic work function; Valence; |
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Note: |
This handbook includes information on such materials as nuclear materials, graphites, polymers, aluminum, ferrous alloys, nickel, and glass. The physical properties of these materials are tabulated. In addition, phase diagram charts and standards are included. Each volume is thoroughly indexed. |
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Bison
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SEL Reference TA403.6.G85 1986 |
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Title: |
GUIDE TO MATERIALS ENGINEERING DATA AND INFORMATION |
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Author: |
ASM International, 1986 |
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Properties: |
Physical |
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Materials: |
Alloys; Elements; Metals |
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Identifiers: |
Atomic weight; Boiling point; Coefficient of thermal expansion; Density; Electrical conductivity; Electrical resistivity; Heat of fusion; Lattice constants; Melting point; Modulus of elasticity; Thermal conductivity |
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Note: |
A ready-reference guide to questions related to metals or materials science. In addition to complete physical property data on the elements and alloys, it provides information in tabular form on metric conversions, as well as general engineering reference tables. It provides ready access to complete industrial alloy cross-referencing, with extensive directories on materials manufacturers, composite suppliers, and manufacturers. |
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Bison
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SEL Reference QE1.M3 no.97 |
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Title: |
HANDBOOK OF PHYSICAL CONSTANTS, rev. ed. |
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Author: |
S.P. Clark, Jr., Geological Society of America, 1966 |
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Properties: |
Crystallographic; Electrical; Magnetic; Mechanical; Physical; Radioactive; Thermal |
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Materials: |
Elements; Inorganic chemicals; Minerals |
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Identifiers: |
Atomic weight; Binary mixtures; Cell volume; Coefficient of thermal expansion; Cohesive strength; Compressibility; Conductivity; Crushing strength; Crystal system; Curie temperature; Density; Dielectric constant; Differential stress; Ductility; Entropy; Fault angle; Free energy function; Free energy of formation; Heat content; Heat of formation; Internal friction; Ionization constants; Isotopic abundance; Melting point; Modulus of elasticity; Molar volume; Neel temperature; Phase equilibria; Porosity; Radioactive decay constants; Resistivity; Saturation magnetization; Space group; Strength; Structure type; Total strain; Transformation point; Ultimate strength; Wave velocities |
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Note: |
This volume contains physical data needed for geological and geophysical calculations. The compilations of data are grouped by topic and indexed by property. |
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Bison
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SEL Reference TP978.F54 1988 |
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Title: |
HANDBOOK OF THE RARE ELEMENTS, VOL. I: TRACE ELEMENTS AND LIGHT ELEMENTS, |
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Author: |
1968 |
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Properties: |
Chemical; Physical; Mechanical; Optical; Radioactive; Thermal |
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Materials: |
Elements |
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Identifiers: |
Boiling point; Brinell hardness; Coefficient of absoprtion; Coefficient of linear expansion; Coefficient of thermal conductivity; Conductivity; Compressibility; Corrosion rate; Creep limit; Density; Elongation; Heat capacity; Heat of fusion; Heat of vaporization; Index of refraction; Lattice constants; Magnetic susceptibility; Melting point; Modulus of elasticity; Molecular volume; Molecular weight; Normal electrode potential; Rate of vaporization; Reflectivity; Resistivity; Rockwell hardness; Surface tension; Temperature coefficient of resistivity; Tensile strength; Vapor pressure; Vickers hardness;Viscosity; Yield point |
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Note: |
This handbook provides properties data for the trace elements--gallium, indium, thallium, germanium, selenium, tellurium, and rhenium--and the light elements--lithium, beryllium, rubidium, and cesium. The material is largely in tabular form with a bibliographic reference for each piece of data presented. |
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Bison
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SEL Reference QD181.O1 F5813 |
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Title: |
OXIDE HANDBOOK |
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Author: |
G.V. Samsonov, IFI/Plenum, 1973 |
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Properties: |
Atomic; Crystallographic; Electrical; Magnetic; Mechanical; Optical; Thermal |
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Materials: |
Elements; Metals; Nonmetallic solids; Oxides |
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Identifiers: |
Absorption cross section; Activation energy; Bend strength; Coefficient of thermal expansion; Color; Composition; Compressibility; Compressive strength; Critical density; Critical pressure; Critical temperature; Critical volume; Crystal structure; Debye temperature; Density; Dielectric constant; Diffusion parameters; Dynamic viscosity; Electrical conductivity; Emissivity; Entropy; Free energy of formation; Frequency; Hall constant; Hardness; Heat capacity; Heat of decomposition; Heat of dissociation; Heat of evaporation; Heat of formation; Heat of fusion; Heat of phase change; Heat of sublimation; Heat of volumorphic conversion; Ionization potentials; Lattice constants; Logarithmic mean energy loss; Magnetic susceptibility; Magnetic transition temperature; Melting point; Mobility; Modulus of elasticity; Molecular mass; Nuclear density; Oxidation rate; Poisson's ratio; Rate of evaporation; Refractive index; Refractory temperature; Richardson constant; Scattering cross section; Shear modulus; Space group; Specific resistivity; Temperature of phase change; Temperature of volumorphic conversion; Tensile strength; Thermal conductivity; Vapor pressure; Velocity; Wavelength; Wetting angle; Width of forbidden band; Work function |
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Note: |
This handbook offers a systematic presentation of basic information on the properties of oxides in the form of tabular data for the widest possible range of temperatures and other external conditions. Particular attention has been paid to expansion of the section on phase diagrams of systems in which oxide phases are formed and information on properties at high temperatures. This book covers the physico-chemical properties such as crystal structure, entropy, potential of formation, heat capacity, etc. |
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Bison
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SEL Reference TA403.4.P7 1989 |
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Title: |
PRACTICAL HANDBOOK OF MATERIALS SCIENCE |
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Author: |
C.T. Lynch, CRC Press, 1989 |
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Properties: |
Chemical; Electrical; Physical; Thermal; |
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Materials: |
Alloys; Ceramics; Composites; Elements; General chemicals; Graphite; Metals; Minerals; Polymers; Refractory materials; Superconductors; Wood |
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Identifiers: |
Annealing point; Arc resistance; Atomic weight; Boiling point; Bond length; Coefficient of cubical expansion; Compressive strength; Critical temperature; Crystal structure; Density; Dielectric constant; Dielectric strength; Electrical resistivity; Entropy; Flammability; Flexural modulus; Flexural strength; Freezing point; Half life; Hardness; Heat capacity; Heat deflection temperature; Heat of fusion; Heat of transition; Ionization potential; Izod impact; Loss factor; Melting point; Melting range; Modulus of elasticity; pH; Porosity; Refractive index; Softening point; Solubility; Specific gravity; Strain point; Temperature coefficient; Tensile modulus; Tensile strength; Thermal conductivity; Thermal neutron absorption; Transition temperature; Valence; Vapor pressure; Water absorption; Yield strength; |
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Note: |
This book is a supplement to the original CRC HANDBOOK OF MATERIALS SCIENCE. Several sections, such as those dealing with composite materials, have been updated to stay abreast of the advances in the field. A complete revision of the materials information section has been included to provide the reader with current information on the federal laboratory and information services in the field of materials science and engineering. |
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Bison
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SEL Reference QD162.P76 1989 |
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Title: |
PROPERTIES OF NONMETALLIC FLUID ELEMENTS |
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Author: |
C.Y. Ho, Hemisphere Publishing Corp., 1989 |
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Properties: |
Physical; Thermal |
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Materials: |
Elements; Fluids; Gases; Liquids; Nonmetallic liquids |
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Identifiers: |
Heat capacity; Prandtl number; Thermal conductivity; Viscosity |
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Note: |
The primary emphasis in this volume is the presentation of numerical data and information on the properties of non-metallic fluid elements. The elements covered in this volume are normally considered to be gaseous. The limits used to evaluate and present values are 1) for pressure up to 1000 bar and 2) temperature up to 1000 K. |
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Bison
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SEL Reference QD171.S442 |
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Title: |
SELECTED VALUES OF THE THERMODYNAMIC PROPERTIES OF THE ELEMENTS |
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Author: |
R. Hultgren, American Society for Metals, 1973 |
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Properties: |
Thermal |
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Materials: |
Alloys; Elements; Metals |
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Identifiers: |
Critical temperature; Electronic heat capacity; Enthalpy; Entropy; Heat capacity; Heat of formation; Vapor pressure |
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Note: |
This book presents in tabular form thermodynamic data for the elements, including updated phase diagrams of each. Data has been tested for consistency with thermodynamic laws and with then phase diagrams. |
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Bison
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SEL Reference TN671.S55 1992 |
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Title: |
SMITHELLS METALS REFERENCE BOOK, 7th ed. |
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Author: |
E.A. Brandes, Butterworth Heinemann, 1992 |
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Properties: |
Chemical; Crystallographic; Electrical; Magnetic; Mechanical; Physical; Radioactive; Thermal |
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Materials: |
Alloys; Elements; Metals; Steel |
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Identifiers: |
Atomic weight; Boiling point; Bulk modulus; Coefficient of resistivity; Coefficient of thermal expansion; Coercive force; Creep; Density; Electrical conductivity; Elongation; Entropy; Flux density; Fracture toughness; Free energy of formation; Hardness; Heat capacity; Heat of formation; Heat of fusion; Heat of vaporization; Impact energy; Lattice constants; Mass absorption coefficient; Maximum work temperature; Melting point; Modulus of elasticity; Modulus of rigidity; Molar heat capacity; Photoelectric emission coefficient; Poisson's ratio; Proof stress; Relative permeability; Resistivity; Shear strength; Specific gravity; Spectral emission coefficient; Sublimation point; Surface tension; Tensile strength; Thermal conductivity; Viscosity; Wavelength |
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Note: |
This handbook contains information on the technology and science of metallic materials, including metallurgical processes and techniques and physical, chemical, electrical, mechanical, and magnetic properties of metals. There are chapters on shape memory alloys, vapor-deposited coatings, superplasticity, ceramics, x-ray analysis of metallic materials, crystallography, crystal chemistry, metallography, mechanical testing, sintered materials, friction and wear, engineering ceramics and other materials. |
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Bison
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SEL Reference QC100.U555 no.539 |
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Title: |
STANDARD X-RAY DIFFRACTION POWDER PATTERNS |
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Author: |
H.E. Swanson, National Bureau of Standards, 1953 |
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Properties: |
Optical |
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Materials: |
Elements; General chemicals; Inorganic chemicals; Powders |
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Identifiers: |
Coefficient of thermal expansion; Density; Interplaner spacing; Lattice constants; Refractive indices; X-ray diffraction powder patterns |
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Note: |
Standard x-ray diffraction powder patterns are presented. The file is a compilation of diffraction patterns from all sources and is used for the identification of unknown crystalline materials by matching spacing and intensity measurements. The densities and lattice constants of compounds were calculated and the refractive indices measured whenever possible. The calculated x-ray powder diffraction patterns were computed from published crystal structure data. |
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Bison
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SEL Reference QC61.K3 1995 |
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Title: |
TABLES OF PHYSICAL AND CHEMICAL CONSTANTS AND SOME MATHEMATICAL FUNCTIONS, 16th ed. |
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Author: |
G.W.C. Kay, T.H. Laby, Longman, 1995 |
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Properties: |
Acoustical; Atomic; Chemical; Electrical; Magnetic; Mechanical; Optical; Physical; Radioactive; Thermal |
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Materials: |
Elements; Inorganic chemicals; Organic chemicals; Polymers |
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Identifiers: |
Acidity constant; Activity coefficient; Atomic weight; Attenuation; Auger spectroscopy; Boiling point; Bond length; Bulk modulus; Coefficient of expansion; Coercivity; Critical pressure; Conductivity; Critical temperature; Cryoscopic constants; Density; Dielectric constant; Dipole length; Dipole moments; Dissociation constant; Elasticity; Electron diffusion; Electron mobility; Entropy; Free energy; Half-wave potential; Heat capacity; Heat of formation; Heat of fusion; Heat of vaporization; Ionic diffusion; Ionic mobility; Ionic radius; Ionization constant; Luminescence; Magnetic resonance; Magnetic susceptibility; Melting point; Molar conductivity; Molar heat capacity; Mossbauer effect; Neutron cross-sections; Radiation; Reflectance; Refractive index; Resistivity; Reverberation absorption coefficient; Rutherford scattering; Solubility; Sound reduction indices; Surface tension; Temperature coefficients; Tensile strength; Thermal conductivity; Thermocoupling temperature; UV-visible spectroscopy; Vapor pressure; Velocity of sound; Verdet constants; Virial coefficient; Viscosity; Wavelength; X ray photoemmision spectroscopy; X ray absorption edges |
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Note: |
This book is arranged in eight parts: Units and fundamental constants, General physics, Chemistry, Atomic and nuclear physics, Miscellaneous engineering data, Statistical methods for the treatment of experimental data, Laboratory safety, and Introduction to quality assurance of measurements. Property coverage includes such items as wavelength standards, cosmic rays, atomic radii, Mossbauer effect, nuclear magnetic resonance, crystal structure, Auger spectroscopy, nuclear fission, neutron cross-sections, neutron moderation, diffusion and subatomic particles. Also covered are medical ultrasonics, fiber optics, high temperature superconductivity, atomic spectroscopy, infrared and Raman spectroscopy, mass and UV-visible spectrometry, flash points and explosive limits in air and autoignition temperatures, Rutherford scattering formulae and magnetic and electrostatic bending radii. |
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Bison
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SEL Reference QC173.397.P87 v.1 |
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Title: |
THERMOPHYSICAL PROPERTIES OF MATTER: THERMAL CONDUCTIVITY - METALLIC ELEMENTS AND ALLOYS, vol. 1 |
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Author: |
Y.S. Touloukian, IFI/Plenum, 1970 |
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Properties: |
Thermal |
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Materials: |
Alloys; Elements; Intermetallic compounds; Metals |
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Identifiers: |
Atomic weight; Boiling point; Critical temperature; Crystal structure; Curie temperature; Debye temperature; Density; Melting point; Neel temperature; Phase transition temperature; Superconducting transition temperature; Thermal conductivity; |
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Note: |
Each volume in this set consists of three sections: some text (with references) on the theory, estimation and measurement of the property under consideration; numerical data in the form of graphs and tables with references to data sources in the primary literature; and an index to the materials covered. Most of the material is in tabular or graphic format. The index of each volume also lists the contents of all of the other volumes in the set. |
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