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Bison #:	SEL Reference QC100.U556 no.132
Title:	A COMPILATION AND EVALUATION OF MECHANICAL, THERMAL AND ELECTRICAL PROPERTIES OF SELECTED POLYMERS
Author:	R.E. Schramm, National Bureau of Standards, 1973
Properties:	Electrical; Mechanical; Thermal
Materials:	Polymers
Identifiers:	Bulk modulus; Compressive modulus; Compressive strength; Conductivity; Creep; Dielectric constant; Dielectric loss tangent; Dielectric strength; Diffusivity; Elongation; Expansion; Fatigue; Flexural modulus; Flexural strength; Hardness; Heat capacity; Impact energy; Internal friction; Modulus of elasticity; Poisson's ratio; Secant modulus; Shear modulus; Shear strength; Stress relaxation; Stress-strain relation; Tensile strength; Toughness; Volume resistivity; Yield strength
Note:	*

Bison #:	SEL Reference RA1211.P38 1992
Title:	A COMPREHENSIVE GUIDE TO THE HAZARDOUS PROPERTIES OF CHEMICAL SUBSTANCES
Author:	P. Patnaik, Van Nostrand Reinhold, 1992
Properties:	Physical; Toxicological
Materials:	General chemicals; Hazardous chemicals; Organic chemicals
Identifiers:	Boiling point; Density; Explosive limit; Flammability; Flash point; Immediate danger to life or health - IDLH; Lethal concentration - LC50; Lethal dose -LD50; Melting point; Molecular weight; pH values; Short term exposure limit; Solubility; Threshold limit value - TLV; Time weighted average - TWA; Vapor density
Note:	The objective of this book is to present information on the hazardous properties of chemical substances and to correlate hazardous properties to the functional groups, reactive sites, and other structural features in the molecules, and thus to predict or assess the hazards of a compound from its structure when there is a lack of experimental data. The hazardous properties are classified under two broad headings: health hazards and fire and explosion hazards

Bison #:	SEL Reference QC794.B83
Title:	ACTIVATION AND DECAY TABLES OF RADIOISOTOPES, vols. 1-2
Author:	E. Bujdoso, Elsevier, 1973
Properties:	Radioactive
Materials:	Radioisotopes
Identifiers:	Cooling time; Decay factor; Gamma ray energy; Half-life; Intensity; Irradiation time
Note:	This book contains tables of activation and decay data on 173 stable isotopes of 80 elements for irradiation with thermal neutrons and activation by (n,Y) reactions. For the 249 radioisotopes thus formed, the tabulated data include the values of half-life, gamma-ray energy and intensity.

Bison #:	SEL Reference QD96.I5 P66 1985
Title:	ALDRICH LIBRARY OF FT-IR SPECTRA, vols. 1-2
Author:	C.J. Pouchert, Aldrich Chemical Co., 1985
Properties:	Physical; Spectral
Materials:	General chemicals; Inorganic chemicals; Organic chemicals; Polymers
Identifiers:	Boiling point; Density; Freezing point; FT-IR; Fourier transform spectroscopy; Infrared spectroscopy; Melting point
Note:	The spectra are placed in order of chemical class and structural complexity. Similar structural characteristics are located within a small finite area for ease of comparison. Over 11,000 compounds are contained in the condensed-phase library. Spectra are printed with technical information such as chemical name, Wiswesser notation, melting point, and boiling point.

Bison #:	SEL Reference TA 480 A6 A6177 1993
Title:	ALUMINUM AND ALUMINUM ALLOYS
Author:	J.R. Davis, ASM International, 1993
Properties:	Corrosion; Mechanical; Physical; Thermal
Materials:	Aluminum; Aluminum alloys
Identifiers:	Boiling point; Chemical composition; Corrosion behavior; Corrosion resistance; Density; Electrical conductivity; Electrical resistivity Electrolytic solution potential; Elongation; Emittance; Fatigue endurance limit; Fracture toughness; Hardness; Impact energy; Melting point; Modulus of elasticity; Poisson's ratio; Reflectance; Shear strength; Specific gravity; Tensile strength; Thermal conductivity; Thermal expansion; Weldability; Yield strength; Young's modulus
Note:	Covers the properties, processing, testing and characterization of aluminum and aluminum alloys. This handbook is divided into five sections: introduction to aluminum and aluminum alloys, selection and application of aluminum alloys, fabrication and finishing, metallography, microstructures and phase diagrams, and properties data.

Bison #:	SEL Reference QC61.A5 1972
Title:	AMERICAN INSTITUTE OF PHYSICS HANDBOOK, 3rd ed.
Author:	D.E. Gray, McGraw-Hill Book Co., 1972
Properties:	Acoustical; Crystallographic; Electrical; Magnetic; Mechanical; Optical; Radioactive; Thermal
Materials:	Elements; General chemicals; Nuclides; Semiconductors; Superconductors
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
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.

Bison #:	SEL Reference TH7201.H5 1997
Title:	ASHRAE HANDBOOK FUNDAMENTALS ed. I-P
Author:	ASHRAE, 1997
Properties:	Electrical; Physical; Thermal
Materials:	Animals; Foodstuffs; Fuels; Plants; Refrigerants
Identifiers:	Boiling point; Coefficient factors; Combustion reactions; Critical pressure; Critical temperature; Critical volume; Density; Dielectric constant; Enthalpy; Entropy; Flammability; Freezing point; Heat capacity; Heat of respiration; Heat of vaporization; Heat transfer coefficient; Ignition temperature; Mass transfer; Refractive index; Resistivity; Specific volume; Surface tension; Thermal conductivity; Viscosity; Volume; Volume resistivity
Note:	This handbook concentrates on the basic data and tables needed to calculate problems dealing with air conditioning, heating, ventilating or refrigerating. It covers such information as fluid flow, combustion, secondary coolants, pipe sizing, load calculations, phychrometric tables, thermodynamics and refrigeration cycles. Such data as weather and design conditions, refrigerant tables, sorbents and desiccants, thermal insulation, water vapor barriers, and heat transmission coefficients are tabulated.

Bison #:	SEL Reference QE390.P5313
Title:	ATLAS OF ORE MINERALS
Author:	P. Picot, Elsevier, 1982
Properties:	Optical; Physical; Radioactive
Materials:	Minerals; Ores
Identifiers:	Anisotropism; Cleavage; Color; Habit; Internal reflections; Polarization colors; Reflectance; Texture; X-ray powder diffraction patterns
Note:	This atlas contains detailed criteria for the determination and identification of over 350 ore minerals. Criteria include color, reflectance, anisotropy, and structure. Most entries also include a color photograph.

Bison #:	SEL Reference TN690.B528 1990
Title:	BINARY ALLOY PHASE DIAGRAMS, 2nd ed., vols. 1-3
Author:	T.B. Massalski, ASM International, 1990
Properties:	Crystallographic; Magnetic; Thermal
Materials:	Alloys; Elements
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
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.

Bison #:	SEL Reference T55.3.H3 B73 1995
Title:	BRETHERICK'S HANDBOOK OF REACTIVE CHEMICAL HAZARDS, 4th ed.
Author:	L. Bretherick, Butterworths, 1995
Properties:	Reactive
Materials:	General chemicals; Hazardous chemicals; Reactive chemicals
Identifiers:	Reactivity
Note:	This handbook provides information on chemicals, compounds and mixtures that can be potentially hazardous if certain interactions occur. The chemical instability data are presented in the major section where the chemicals are listed in formula sequence. An index is provided for easy access to the chemical hazard data.

Bison #:	SEL Reference TA479 C37 C37 1996
Title:	CARBON AND ALLOY STEELS
Author:	J.R. Davis, ASM International, 1996
Properties:	Corrosion; Fatigue; Fracture; Mechanical; Physical
Materials:	Alloys; Carbon steels; Steel alloys
Identifiers:	Bend radius; Chemical composition; Compressive strain; Elongation; Fatigue resistance; Fracture toughness; Hardness; Modulus of elasticity; Plastic-strain ratio; Tensile strength; Wear resistance; Yield strength
Note:	The introduction to this handbook covers steel-making practices and the classification, general properties and applications of steel. Four main sections make up the rest of the work and describe processing characteristics, service characteristics, corrosion behavior, and material requirements for specific applications. Emphasis is placed on the relationships between microstructure and properties, and the influence of modern steel-making practices on the performance of steels.

Bison #:	SEL Reference QC457.C687 1982
Title:	COBLENTZ SOCIETY DESK BOOK OF INFRARED SPECTRA, 2nd ed.
Author:	C.D. Craver, Coblentz Society, 1982
Properties:	Spectral
Materials:	Organic compounds
Identifiers:	Dipole moment; Infrared spectra
Note:	This book is meant to be a selection of high quality and useful reference spectra for purposes that can be served by typical spectra of principal compound classes. There is a high percentage of solution spectra included.Some compounds are represented by spectra obtained for more than one physical state.

Bison #:	SEL Reference TA401.A18 no.DS25A 1967
Title:	COMPILATION OF GAS CHROMATOGRAPHIC DATA
Author:	O.E. Schupp, American Society for Testing and Materials, 1967
Properties:	Chromatographic
Materials:	General chemicals; Organic chemicals
Identifiers:	Capacity ratio; Gas chromatography; Relative retention; Retention index; Specific retention volume
Note:	This book provides the conditions used for the separation of a wide variety of compounds and facilitates the tentative identification of materials producing peaks on chromatograms. The majority of the collected data was compiled from published research.

Bison #:	SEL Reference TP156.E65 H5 1975
Title:	COMPUTER-AIDED DATA BOOK OF VAPOR-LIQUID EQUILIBRIA
Author:	M. Hirata, S. Ohe, and K. Nagahama, Elsevier, 1975
Properties:	Equilibrium data
Materials:	Organic chemicals
Identifiers:	Antoine constants; Wilson's constants
Note:	This handbook consists primarily of tables containing vapor-liquid equilibrium data for approximately 1,000 binary systems.

Bison #:	SEL Reference TA418.74 S38 1995
Title:	CORROSION RESISTANCE TABLES, 4th ed.
Author:	P.A. Schweitzer, Marcel Dekker, Inc., 1995
Properties:	Corrosion; Mechanical
Materials:	Alloys; Metals; Plastics; Rubbers (synthetic and natural)
Identifiers:	Chemical synonyms; Galvanic corrosion; General corrosion; Generic names; Intergranular corrosion; Stress corrosion; Trade names
Note:	Presents corrosion resistance data for a broad array of materials used in the construction of processing vessels, storage tanks, piping systems, valves, and other structures and structural components that come into contact with potentially corrosive chemicals. Begins with a brief overview of the general principles of corrosion. The rest of the three volume set consists entirely of tables arranged alphabetically by chemical corrodent. For each corrodent, corrosion rates are indicated as excellent, good, satisfactory, and unsatisfactory for metals, and as resistant or unsatisfactory for nonmetals for a range of temperatures. Appendices give chemical synonyms as well as cross-references of trade names to generic names.

Bison #:	SEL Reference QD65.C4
Title:	CRC HANDBOOK OF CHEMISTRY AND PHYSICS
Author:	D.R. Lide, CRC Press
Properties:	Chemical; Mechanical; Thermal
Materials:	General chemicals; Inorganic chemicals; Minerals; Organic chemicals
Identifiers:	Atomic mass; Atomic transition probability; Azeotropic data; Bohr radius; Boiling point; Bond angles; Bond length; Bond strength; Cell volume; Coefficient of thermal expansion; Critical density; Critical pressure; Critical temperature; Crystalline form; Curie temperature; Debye temperature; Decay; Density; Dielectric constant; Diffusion; Dipole moments; Electron affinities; Enthalpy of combustion; Enthalpy of formation; Enthalpy of vaporization; Entropy; Gibbs energy of formation; Hardness; Heat capacity; Heat of formation; Ionic conductivity; Ionization potential; Lattice parameters; Melting point; Molar volume; Molecular mass; pH; Purity; Refractive index; Relative molar mass; Solubility; Space group; Specific gravity; Specific rotation; Speed of light in vacuum; Surface tension; Thermal conductivity; Transition temperature; Transmission; Vapor pressure; Viscosity; Virial coefficient; Wavelength; X-ray crystallography; X-ray density
Note:	This handbook provides the latest and most accurate information for the chemical and physical sciences. One of the major features is the tabulated data on the physical constants of organic and inorganic compounds. Such information as density, specific gravity, melting point, boiling point, solubility and index of refraction is provided. The handbook also includes data on such subjects as the isotopes, amino acids, carbohydrates, and thermal conductivity of various organic and inorganic compounds.

Bison #:	SEL Reference TA403.H3 1974 v.1
Title:	CRC HANDBOOK OF MATERIALS SCIENCE, vol. 1
Author:	C.T. Lynch, CRC Press, 1974
Properties:	Acoustical; Electrical; Mechanical; Physical; Thermal
Materials:	Elements; General chemicals; Inorganic chemicals; Metals
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;
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.

Bison #:	SEL Reference TA403.H3 1974 v.2
Title:	CRC HANDBOOK OF MATERIALS SCIENCE, vol. 2
Author:	C.T. Lynch, CRC Press, 1974
Properties:	Mechanical; Physical; Thermal
Materials:	Alloys; Aluminum; Aluminum compounds; Ceramics; Composites; Glass; Inorganic chemicals; Metals; Oxides; Refractory materials; Steel
Identifiers:	Annealing point temperature; Austenilize temperature; Coefficient of thermal expansion; Conductivity; Creep strength; Curie temperature; Density; Dielectric strength; Dissipation factor; Electrical resistivity; Elongation; Expansion; Fatigue strength; Hardness; Heat capacity; Heat of formation; Hot working temperature; Impact strength; Loss factor; Melting range; Modulus of elasticity; Modulus of rigidity; Normalized temperature; Permeability; Poisson's ratio; Refractive index; Rupture strength; Softening point temperature; Specific gravity; Tensile strength; Thermal conductivity; Volume resistivity; Working point temperature; Yield strength
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 and phase diagram charts and standards are included. Each volume is thoroughly indexed.

Bison #:	SEL Reference TA403.H3 1974 v.3
Title:	CRC HANDBOOK OF MATERIALS SCIENCE, vol. 3
Author:	C.T. Lynch, CRC Press, 1974
Properties:	Electrical; Magnetic; Mechanical; Optical; Physical; Thermal
Materials:	Graphite; Nonmetallic solids; Polymers; Radioisotopes; Semiconductors; Superconductors
Identifiers:	Arc resistance; Coefficient of thermal expansion; Compressive strength; Critical temperature; Crystal structure; Curie temperature; Density; Dielectric strength; Dissipation factor; Elasticity modulus; Elongation; Flammability; Flexural strength; Hardness; Heat capacity; Heat distortion temperature; Impact strength; Lattice parameters; Mass absorption coefficient; Melting point; Modulus of elasticity; Neel temperature; Permeability; Porosity; Refractive index; Shear strength; Specific gravity; Specific resistance; Tear strength; Tensile strength; Thermal conductivity; Transmittance; Transparency; Vapor pressure; Volume resistivity; Water absorption; Wavelength
Note:	This volume of the handbook includes information on such materials as nuclear materials, biomedical materials, graphites, polymers, aluminum, ferrous alloys, nickel, and glass. The physical properties of these materials are tabulated along with phase diagram charts and standards. Each volume is thoroughly indexed.

Bison #:	SEL Reference TA403.H3 1974 v.4
Title:	CRC HANDBOOK OF MATERIALS SCIENCE, vol. 4
Author:	C.T. Lynch, CRC Press, 1974
Properties:	Electrical; Mechanical; Physical; Thermal
Materials:	Wood
Identifiers:	Compressibility; Density; Hardness; Impact bending; Modulus of elasticity; Modulus of rupture; Shear strength; Shrinkage; Specific gravity; Specific moisture content; Tensile strength
Note:	This handbook includes physical properties data for wood.

Bison #:	SEL Reference QD95.H27 v.2
Title:	CRC HANDBOOK OF SPECTROSCOPY, vol. 2
Author:	J.W. Robinson, CRC Press, 1974
Properties:	Optical; Physical; Spectral
Materials:	General chemicals
Identifiers:	Electron spin resonance; Infrared spectroscopy; Mass spectral tabulations; Nuclear magnetic resonance; Raman spectroscopy; Refractive index; Ultraviolet absorption spectroscopy
Note:	This handbook provides information that will help identify various materials and compounds, including information on infrared, ultraviolet, Raman spectroscopy, electron spin and nuclear magnetic resonance, emission, atomic, flame and x-ray spectroscopy and mass spectral tables for such chemical groups as ketones, esters, alcohols and many others.

Bison #:	SEL Reference QD65.C4 suppl 1967
Title:	CRC HANDBOOK OF TABLES FOR ORGANIC COMPOUND IDENTIFICATION, 3rd ed.
Author:	Z. Rappoport, Chemical Rubber Co., 1967
Properties:	Physical; Spectral; Thermal;
Materials:	Organic chemicals
Identifiers:	Boiling point; Density; Dissociation constant; Freezing point; Infrared correlation; Melting point; Miscibility; Refractive index; Specific rotation
Note:	This handbook provides physical constants for many different organic compounds tabulated and organized by chemical groups such as alcohols, ketones, esters, and alkenes. Logarithmic tables, carbohydrate properties and other data are included along with an index for the organic compounds included in the tables.

Bison #:	SEL Reference TA403.4 S482 1995
Title:	CRC PRACTICAL HANDBOOK OF MATERIALS SELECTION
Author:	A. Shackelford, CRC Press, 1995
Properties:	Thermal; Thermodynamic; Mechanical; Electrical; Corrosion; Optical; Chemical
Materials:	Alloy Cast Iron; Tool Steel; Gray Cast Iron; Wrought Aluminum Alloy; Treated Ductile Iron; Malleable Iron Casting; Various Ceramics; Polymers
Identifiers:	Abrasion Resistance; Arc Resistance; Area Reduction; Bulk Modulus; Coefficients of Static Friction; Compression Modulus; Compression Poisson's Ratio; Compressive Strength; Compressive Yield Strength; Corrosive Medium; Corrosive Rate; Critical Temperature; Dielectric Strength; Diffusion Activation Energy; Dissipation Factor; Electrical Permisivity; Electrical Resistivity; Elongation; Elongation at Yield; Fatigue Strength; Flammability; Flexural Strength; Hardness; Heat of Formation; Impact Energy; Impact Strength; Melting Point; Microhardness; Modulus of Elasticity in Compression; Modulus of Elasticity in Flexure; Modulus of Elasticity in Tension; Modulus of Rupture; Poisson's Ratio; Refractive Indices; Reverse Bending Fatique Limit; Resistivity; Shear Moduli; Shear Strength; Specific Heat; Tangent Loss; Tensile Moduli; Tensile Strength; Thermal Conductivity; Thermal Expansion; Torsion Poisson's Ratio; Torsional Moduli; Torsional Shear Strength; Transmission Range; Transparency; Water Absorption; Yield Strength; Young's Modulus
Note:	Information on professional societies, educational institutions, and employment opportunities in the field of material science/engineering. Selected property tables for metals, ceramic/glass, and polymers.

Bison #:	SEL Reference QE372 .D23 1997
Title:	DANA'S NEW MINERALOGY, 8th edition.
Author:	R.V. Gaines et al., Wiley, 1997
Properties:	Chemical; Crystallographic; Optical; Physical
Materials:	Minerals
Identifiers:	Chemical formula; Color; Cleavage; Crystal form; Crystal system; Density; Fluorescence/Phosphorescence; Fracture; Hardness; Infra spectra; Lattice constants; Luster; Mossbauer spectra; Occurrence; Powder diffraction pattern; Raman spectra; Streak; Tenacity
Note:	The aim of this handbook is to systematically catalog and classify all known minerals reported in the literature. This edition contains data on 3,700 minerals, including meteorites and lunar samples, and some anthropogenic and synthetic minerals.

Bison #:	SEL Reference QA929 V65 1989
Title:	DATA BOOK ON THE VISCOSITY OF LIQUIDS
Author:	D.S. Viswanath and G. Natarajan, Hemisphere Pub. Corp., 1989
Properties:	Physical; Transport
Materials:	Liquids
Identifiers:	Absolute viscosity; Kinematic viscosity; Viscosity
Note:	This handbook covers the viscosity of the liquid forms of over 900 compounds, including organic compounds, food materials, inorganic liquids, liquid metals, lubricants, plasticizers, and other compounds. Viscosity data are reported as a function of temperature.

Bison #:	SEL Reference TA403.E497 1987 v.3
Title:	ENGINEERED MATERIALS HANDBOOK: ADHESIVES AND SEALANTS, vol. 3
Author:	H. Brinson, ASM International, 1987
Properties:	Mechanical; Physical; Thermal
Materials:	Adhesives; Sealants
Identifiers:	Aging; Cure rate; Dielectric constant; Dissipation factor; Elongation; Extrudability; Flammability; Hardness; Impact resistance; Modulus of elasticity; Moisture resistance; Molecular Weight; Odor; Sag; Service temperature; Service temperature range; Sheer strength; Shelf life; Solvent resistance; Specific gravity; Tensile shear strength; Toxicity; T-peel strength; Viscosity; Volume resistivity; Work life
Note:	This handbook covers structural and engineering adhesives and sealants for manufacturing industry use. Sections cover fundamentals; a glossary of terms and definitions; overviews of technology, markets and applications; specifications and standards; and a review of general information sources. Also, families of adhesives and sealant materials are described, including their relation to function and use, surface consideration, testing and analysis approaches. In addition, information on design use, environmental effects, and manufacturing processes is given.

Bison #:	SEL Reference TA403.E497 1987 v.4
Title:	ENGINEERED MATERIALS HANDBOOK: CERAMICS AND GLASSES, vol. 4
Author:	S.J. Schneider, ASM International, 1987
Properties:	Crystallographic; Mechanical; Physical; Thermal
Materials:	Ceramics; Glasses
Identifiers:	Bend strength; Bulk modulus; Coefficient of thermal expansion; Comprehensive strength; Crystallography; Density; Dielectric constant; Dielectric strength; Elasticity; Enthalpy; Flexural strength; Fracture toughness; Free energy of formation; Hardness; Heat capacity; Lattice parameters; Load; Loss factor; Melting point; Modulus of elasticity; Modulus of rigidity; Poisson's ratio; Relative density; Rigidity; Stability range; Surface tension; Tensile strength; Theoretical density; Thermal conductivity; Thermal expansion; Viscosity;
Note:	Includes major sections on every aspect of the technology, production and synthesis of ceramic powders, including forming and sintering processes; final shaping; machinery; techniques; glass processing methods; testing, characterization and non-destructive evaluation; failure analysis and fractography; design considerations for advanced ceramics; and engineering properties including crystallographic and thermodynamic characteristics.

Bison #:	SEL Reference TA403.E497 1987 v.1
Title:	ENGINEERED MATERIALS HANDBOOK: COMPOSITES, vol. 1
Author:	T.J. Reinhart, ASM International, 1987
Properties:	Electrical; Mechanical; Physical; Thermal
Materials:	Composites; Fibers; Resins
Identifiers:	Arc resistance; Carbon assay; Chemical resistance; Coefficient of thermal expansion; Compressive strength; Cure cycle; Density; Dielectric breakdown voltage; Dielectric constant; Dielectric strength; Dissipation factor; Elasticity; Electrical conductivity; Elongation; Filament diameter; Flexural strength; Fracture toughness; Gel time; Heat capacity; Heat deflection temperature; Heat distortion temperature; Heat of reaction; Impact strength; Loss factor; Melt temperature; Melting point; Moisture absorption; Morphology; Poisson's ratio; Refractive index; Relative permissivity; Shear strength; Surface resistivity; Tensile elongation; Tensile modulus; Tensile strength; Thermal conductivity Track resistance; Transition temperature; Use temperature; Viscosity; Viscosity annealing point; Viscosity softening point; Volume resistivity; Young's modulus
Note:	This volume includes properties and forms of components of composites, analysis and design, testing, and applications. Materials covered include polymer matrix materials, reinforced composites, some metal, carbon/graphite, and ceramic matrix composites. Each section contains an introductory overview on the general subject; subsections cover specific aspects such as static strength and adhesives specifications.

Bison #:	SEL Reference TA403.E497 1987 v.2
Title:	ENGINEERED MATERIALS HANDBOOK: ENGINEERING PLASTICS, vol. 2
Author:	J.N. Epel, ASM International, 1987
Properties:	Chemical; Electrical; Mechanical; Optical; Physical; Thermal
Materials:	Plastics; Polymers
Identifiers:	Arc resistance; Coefficient of thermal expansion; Compressive modulus; Compressive strength; Conductivity; Continuous use temperature; Density; Dielectric constant; Dielectric strength; Dimensional stability; Dissipation factor; Elongation; Flammability; Flexural modulus; Flexural strength; Hardness; Heat deflection temperature; Impact strength; Light transmission; Loss tangent; Melt flow rate; Melting point; Permeability; Poisson's ratio; Processing temperature; Refractive index; Resistance; Saturation; Shear strength; Solubili ty; Specific gravity; Stiffness; Surface resistivity; Tensile modulus; Tensile strength; Thermal conductivity; Toughness; Track resistance; Transition temperature; Transparency; Volume resistivity; Water absorption
Note:	This volume includes physical, electrical, optical, thermal, mechanical, and chemical properties for all forms of engineering plastics. Each section is arranged by polymer class and covers all aspects of the technology.

Bison #:	SEL Reference TA472.E63 1982
Title:	ENGINEERING PROPERTIES OF STEEL
Author:	P.D. Harvey, American Society for Metals, 1982
Properties:	Mechanical; Physical
Materials:	Alloys; Steel
Identifiers:	Elongation; Hardness; Heat capacity; Machinability rating; Machinability ratio; Reduction; Resistivity; Tensile strength; Thermal conductivity; Thermal expansion; Transformation temperature; Yield strength
Note:	Presents data for carbon, alloy, stainless and heat resisting, tool, ASTM structural and maraging steels, as well as the chemical composition, general characteristics and uses, mechanical properties, and machining data for many steels used in industrial applications.

Bison #:	SEL Reference TP978.F54 1988
Title:	ENGINEERING RESINS: AN INDUSTRIAL GUIDE
Author:	E Flick, Noyes Publications, 1988
Properties:	Electrical; Physical; Mechanical; Thermal
Materials:	Gums; Plastics; Resins
Identifiers:	Arc resistance; Compressive strength; Deflection temperature; Dielectric constant; Dielectric strength; Dissipation factor; Elongation; Flame resistance; Flexural modulus; Flexural strength; Hardness; Izod impact strength; Mold shrinkage; Poisson's ratio; Shear strength; Specific gravity; Tensile strength; Volume resisivity; Water absorption
Note:	This handbook describes more than 2,500 engineering resins in industrial use. Products are organized by company, and the companies are listed alphabetically. The table of contents is organized in such a way as to serve as a company index to the book. There is also a Trade Name Index. Properties reported for each product vary but include many of those listed below under "Identifiers."

Bison #:	SEL Reference TA 484 F37 1995
Title:	Fatigue Data Book: Light Structural Alloys;
Author:	ASM International, 1995
Properties:	Mechanical; Physical; Thermal; Corrosion
Materials:	Aluminum Alloys, Magnesium Alloys, Titanium Alloys
Identifiers:	Constant-life diagram; Crack growth; Density; Electrical resistivity; Elongation; Fracture toughness; Impact toughness; Modulus of elasticity; Notched fatigue; Plane-strain; Smooth fatigue; Tensile strength; Thermal coefficient of linear expansion; Thermal conductivity; Yield strength;
Note:	Resource consists of tables and graphs of data for a variety of different alloy types for aluminum, magnesium, and titanium. Index of tables and figures included.

Bison #:	SEL Reference TD426.M66 1996
Title:	GROUNDWATER CHEMICALS DESK REFERENCE, 2nd ed.
Author:	J.H. Montgomery, Lewis, 1996
Properties:	Environmental; Physical; Toxicological
Materials:	Organic chemicals
Identifiers:	Absorption coefficient; Bioconcentration factors; Boiling point; Diffusity in water; Dissociation constant; Environmental fate; Federal drinking water standards; Flash point; Half-life; Heat of fusion; Henry's law constant; Interfacial tension with water; Ionization potential; Lower explosive limit; Melting point; Odor thresholds in air; Partition coefficient; PEL - Permissible exposure limits; Solubility; TLV - Threshold limit values; Toxicity to aquatic organisms and mammals; Upper explosive limit; Vapor density; Vapor pressure
Note:	This handbook covers compounds designated as organic priority pollutants by the U.S. EPA under the Clean Water Act of 1977 as well as compounds most commonly found in the work environment. Compounds are arranged alphabetically, with each entry listing synonyms, structural formulae, chemical designation, empirical formulas, physical and chemical properities, flammability, commerical uses, selectd manufacturers and references. Also includes a list of abbreviations and symbols used in the book and a table of conversion factors.

Bison #:	SEL Reference TA403.6.G85 1986
Title:	GUIDE TO MATERIALS ENGINEERING DATA AND INFORMATION
Author:	ASM International, 1986
Properties:	Physical
Materials:	Alloys; Elements; Metals
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
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.

Bison #:	SEL Reference QH310 S6 1956
Title:	HANDBOOK OF BIOLOGICAL DATA
Author:	W.S. Spector, editor, W.B. Saunders Co., 1956
Properties:	Biochemical; Biophysical; Chemical; Electrical; Mechanical; Nutritional; Optical; Photochemical; Physical; Physiological; Spectral
Materials:	Animals; Bacteria; Biological materials; Blood; Drugs; Herbicides; Microorganisms; Muscles; Organs; Plants; Radioisotopes; Tissues; Whole organisms
Identifiers:	Bioluminescence; Body temperature; Boiling point; Cell division; Chemical composition; Conductivity; Density; Dissociation constant; Distribution; Drug reactions; Freezing point; Genetic linkage; Germination rate; Growth rate; Heart rate; Hydrolysis constant; Ion absorption; Ionization constant; Life span; Melting point; Molecular formula; Molecular weight; Nutrient utilization; Osmotic pressure; Pain sensitivity; Permeability; pH; Physiological effects; Pressure; Radiation effects; Refractive index; Respiration rate; Rotation; Size; Solubility; Specific gravity; Surface area; Surface tension; Toxicity; Weight
Note:	Presents tabular data and graphs, charts, and diagrams in the broad general areas of plant, animal, and pre-clinical medical sciences.

Bison #:	SEL Reference TD196.O73 H35 1996
Title:	Handbook of Environmental Data on Organic Chemicals, 3rd ed.
Author:	K. Verschueren, Van Nostrand Reinhold, 1996
Properties:	Chemical; Environmental; Physical; Toxicological
Materials:	Organic chemicals
Identifiers:	Atmospheric reactions; Bioaccumulation values; Biodegradation rate; Boiling point; Density; Henry's law constant; Melting point; Molecular weight; Octanol-water partition coefficient; Odor threshold values; Oxidation parameters; Physical appearance; Residual concentration; Saturation concentration; Solubility; Toxicological effects; Vapor density; Vapor pressure
Note:	Lists organic chemicals alphabetically, presenting data on each substance including common name, synonyms, molecular and structural formulas and Chemical Abstracts Service (CAS) Registry Number. In addition, the book covers the natural and manmade sources of a substance, its uses and various formulations, and sampling, analysis, and treatment methods.

Bison #:	SEL Reference TD193.H73 1991
Title:	HANDBOOK OF ENVIRONMENTAL DEGRADATION RATES
Author:	P.H. Howard, Lewis, 1991
Properties:	Toxicological
Materials:	General chemicals; Hazardous chemicals
Identifiers:	Aerobic biodegradation; Anaerobic biodegradation; Half-life; Hydrolysis; Hydroxal radical reaction; Photolysis; Photooxidation
Note:	This handbook provides evaluations of the environmental impact of pollutants, and describes the decomposition of chemicals once they are released into the environment. It presents the rate constants for individual abiotic and biotic degradation processes for chemicals of anthropogenic origin as they pertain to the environmental compartments of soil, water and air. Includes chemical name directory and CAS registry number index.

Bison #:	SEL Reference TD 176.4.H69 1989 v.2
Title:	HANDBOOK OF ENVIRONMENTAL FATE AND EXPOSURE DATA FOR ORGANIC CHEMICALS: SOLVENTS, vol. 2
Author:	P.H. Howard, Lewis Publishers, 1989
Properties:	Environmental; Physical; Toxicological
Materials:	Hydrocarbons; Organic chemicals; Solvents
Identifiers:	Abiotic degradation; Aquatic fate; Atmospheric fate; Average daily intake; Bioconcentration; Boiling point; Dissociation constant; Environmental fate; Henry's law constant; Melting point; Molecular weight; Partition coefficient; Soil absorption; Solubility; Terrestrial fate; Vapor pressure; Volatilization
Note:	This series of books outlines in detail how individual chemicals are released, transported and degraded in the environment and how they are exposed to humans and environmental organisms. It reviews available data on physical/chemical properties, commercial use and possible sources of environmental fate, and monitoring data of individual chemicals. Each review of a chemical provides data necessary for a qualitative or quantitative exposure assessment.

Bison #:	SEL Reference TD 176.4.H69 1989 v.3
Title:	HANDBOOK OF ENVIRONMENTAL FATE AND EXPOSURE DATA FOR ORGANIC CHEMICALS: PESTICIDES, vol. 3
Author:	P.H. Howard, Lewis Publishers, 1989
Properties:	Environmental; Physical; Toxicological
Materials:	Hydrocarbons; Organic chemicals; Pesticides
Identifiers:	Abiotic degradation; Aquatic fate; Atmospheric fate; Average daily intake; Bioconcentration; Boiling point; Dissociation constant; Environmental fate; Henry's law constant; Melting point; Molecular weight; Partition coefficient; Soil absorption; Solubility; Terrestrial fate; Vapor pressure; Volatilization
Note:	This series of books outlines in detail how individual chemicals are released, transported and degraded in the environment and how they are exposed to humans and environmental organisms. It reviews available data on physical/chemical properties, commercial use and possible sources of environmental fate, and monitoring data of individual chemicals. Each review of a chemical provides data necessary for a qualitative or quantitative exposure assessment.

Bison #:	SEL Reference TD176.4.H69 1989 v.1
Title:	HANDBOOK OF ENVIRONMENTAL FATE AND EXPOSURE DATA FOR ORGANIC CHEMICALS: PRIORITY POLLUTANTS, vol. 1.
Author:	P.H. Howard, Lewis Publishers, 1989
Properties:	Environmental; Physical; Toxicological
Materials:	Organic compounds; Priority pollutants
Identifiers:	Abiotic degradation; Aquatic fate; Atmospheric fate; Average daily intake; Bioconcentration; Biodegradation; Boiling point; Dissociation constant; Environmental fate; Henry's law constant; Melting point; Molecular weight; Partition coefficient; Soil absorption; Solubility; Terrestrial fate; Vapor pressure; Volatilization
Note:	This series of books outlines in detail how individual chemicals are released, transported and degraded in the environmental organisms. It reviews available data on physical/chemical properties, commercial use and possible sources of environmental contamination, environmental fate, and montioring data for individual chemicals. Each review of a chemical provides data necessary for a qualitative or quantitative exposure assessment.

Bison #:	SEL Reference TD 176.4.H69 1989 v.4
Title:	HANDBOOK OF ENVIRONMENTAL FATE AND EXPOSURE DATA FOR ORGANIC CHEMICALS: SOLVENTS 2, vol. 4
Author:	P.H. Howard, Lewis Publishers, 1989
Properties:	Environmental; Physical; Toxicological
Materials:	Hydrocarbons; Organic chemicals; Solvents
Identifiers:	Abiotic degradation; Aquatic fate; Atmospheric fate; Average daily intake; Bioconcentration; Boiling point; Dissociation constant; Environmental fate; Henry's law constant; Melting point; Molecular weight; Partition coefficient; Soil absorption; Solubility; Terrestrial fate; Vapor pressure; Volatilization
Note:	This series of books outlines in detail how individual chemicals are released, transported and degraded in the environment and how they are exposed to humans and environmental organisms. It reviews available dataon physical/chemical properties, commercial use and possible sources of environmental fate, and monitoring data of individual chemicals. Each review of a chemical provides data necessary for a qualitative or quantitative exposure assessment.

Bison #:	SEL Reference TD 176.4.H69 1989 v.5
Title:	HANDBOOK OF ENVIRONMENTAL FATE AND EXPOSURE DATA FOR ORGANIC CHEMICALS: SOLVENTS, vol. 5
Author:	P.H. Howard, Lewis Publishers, 1989
Properties:	Environmental; Physical; Toxicological
Materials:	Hydrocarbons; Organic chemicals; Solvents
Identifiers:	Abiotic degradation; Aquatic fate; Atmospheric fate; Average daily intake; Bioconcentration; Biodegradation; Boiling point; Dissociation constant; Environmental fate; Henry's law constant; Melting point; Molecular weight; Partition coefficient; Soil adsorption; Solubility; Terrestrial fate; Vapor pressure; Volatilization
Note:	This series of books outlines in detail how individual chemicals are released, transported and degraded in the environment and how they are exposed to humans and environmental organisms. It reviews available data on physical/chemical properties, commercial use and possible sources of environmental fate, and monitoring data of individual chemicals. Each review of a chemical provides data necessary for a qualitative or quantitative exposure assessment.

Bison #:	SEL Reference TP848.H36 pt A
Title:	HANDBOOK OF GLASS DATA / PART A / SILICA GLASS AND BINARY SILICATE GLASSES
Author:	Mazurin, Streltsina, Shvaiko-Shvaikovskaya; Elsevier, 1983
Properties:	Electrical; Mechanical; Optical; Elastic; Thermal; Magnetic
Materials:	Silica and Binary silicate glasses
Identifiers:	absorption coefficient; bulk modulus; coefficent of gas permeation; compressibility; density; dielectric loss angle; diffusion coefficient; dispersion coefficient; electrical conductivity; electrical resistivity; energy of activation; enthalpy; frequency; glass transition temperature; heat conductivity; heat of solution; heat of crystallization; internal friction; linear thermal expansion coefficient; logarithmic damping coefficient; longitudinal sound velocity; loss coefficient; microhardness; permittivity; Poisson's ratio; pressure; process velocity; refractive index; shear modulus; specific heat; solubility coefficient; surface tension; temperature; temperature conductivity; transverse sound velocity; viscosity; volume; volume thermal expansion coefficient; wavelength; Young's modulus
Note:	Resource consists of tables and graphs depicting the various properties for silica glass and binary silicate glasses. First of a five-volume series on glass data. Contains author, subject, and formula indexes.

Bison #:	SEL Reference TP848.H36 pt B
Title:	HANDBOOK OF GLASS DATA / PART B / SINGLE-COMPONENT AND BINARY NON-SILICATE GLASSES
Author:	Mazurin, Streltsina, Shvaiko-Shvaikovskaya; Elsevier, 1983
Properties:	Electrical; Elastic; Chemical; Optical; Thermal; Physical; Mechanical; Magnetic
Materials:	Single-component and binary non-silicate oxide glasses
Identifiers:	absorption coefficient; bulk modulus; chemical durability; coefficient of gas permeation; compressibility; crystallization; density; diffusion; diffusion coefficient; dispersion coefficient; electrical conductivity; electrical resistivity; energy of activation; enthalpy; glass formation; heat of crystallization; heat of evaporation; heat of solution; frequency; internal friction; linear thermal expansion coefficient; longitudinal sound velocity; microhardness; permittivity; refractive index; shear modulus; solubility coefficient; specific heat; surface tension; thermal conductivity; thermal diffusivity; thermal expansion; transition temperature; transverse sound velocity; viscosity; volatilzation; wavelength; Young's modulus
Note:	Resource consists of tables and graphs depicting the various properties for single-component and binary non-silicate oxide glasses. Second of five-volume series on glass data. Contains author, subject, and formula indexes.

Bison #:	SEL Reference TP848.H36 pt C
Title:	HANDBOOK OF GLASS DATA / PART C / TERNARY SILICATE GLASSES
Author:	Mazurin, Streltsina, Shvaiko-Shvaikovskaya; Elsevier, 1987
Properties:	Electrical; Elastic; Chemical; Optical; Thermal; Physical; Mechanical
Materials:	Ternary silicate glasses
Identifiers:	absorption coefficient; bulk modulus; coefficient of gas permeation; compressibility; density; dielectric loss angle; diffusion coefficient; dispersion coefficient; electrical conductivity; electrical resistivity; energy of activation; enthalpy; frequency; glass transition temperature; heat of crystallization; heat of evaporation; heat of solution; internal friction; linear thermal expansion coefficient; logarithmic damping coefficient; longitudinal sound velocity; microhardness; permittivity; Poisson ratio; refractive index; shear modulus; specific heat; solubility coefficient; thermal conductivity; thermal diffusivity; transverse sound velocity; viscosity; volume thermal expansion coefficient; wavelength; Young's modulus
Note:	Resource consists of tables and graphs depicting the various properties for ternary silicate glasses. Third of five-volume series on glass data. Contains author, subject, and formula indexes.

Bison #:	SEL Reference TP848.H36 pt D
Title:	HANDBOOK OF GLASS DATA / PART D / TERNARY NON-SILICATE GLASSES
Author:	Mazurin, Streltsina, Shvaiko-Shvaikovskaya; Elsevier, 1991
Properties:	Electrical; Elastic; Chemical; Optical; Thermal; Physical; Mechanical
Materials:	Ternary non-silicate glasses
Identifiers:	absorption coefficient; bulk modulus; coefficient of gas permeation; compressibility; density; dielectric loss angle; diffusion coefficient; dispersion coefficient; electrical conductivity; electrical resistivity; energy of activation; enthalpy; frequency; glass transition temperature; heat of crystallization; heat of evaporation; heat of solution; internal friction; linear thermal expansion coefficient; logarithmic damping coefficient; longitudinal sound velocity; microhardness; permittivity; Poisson ratio; refractive index; shear modulus; specific heat; solubility coefficient; stress optical coefficient; thermal conductivity; thermal diffusivity; transverse sound velocity; viscosity; volume thermal expansion coefficient; wavelength; Young's modulus
Note:	Resource consists of tables and graphs depicting the various properties for ternary non-silicate glasses. Fourth of five-volume series on glass data. Contains author, subject, and formula indexes.

Bison #:	SEL Reference TP848.H36 pt E
Title:	HANDBOOK OF GLASS DATA / PART E / SINGLE-COMPONENT, BINARY, AND TERNARY OXIDE GLASSES
Author:	Mazurin, Streltsina, Shvaiko-Shvaikovskaya; Elsevier, 1993
Properties:	Electrical; Elastic; Chemical; Optical; Thermal; Physical; Mechanical
Materials:	Single-component, binary, and ternary oxide glasses
Identifiers:	absorption coefficient; bulk modulus; coefficient of gas permeation; compressibility; density; dielectric loss angle; diffusion coefficient; dispersion coefficient; electrical conductivity; electrical resistivity; energy of activation; enthalpy; frequency; glass transition temperature; heat of crystallization; heat of evaporation; heat of solution; internal friction; linear thermal expansion coefficient; logarithmic damping coefficient; longitudinal sound velocity; microhardness; permittivity; Poisson ratio; refractive index; shear modulus; specific heat; solubility coefficient; thermal conductivity; thermal diffusivity; transverse sound velocity; viscosity; volume thermal expansion coefficient; wavelength; Young's modulus
Note:	Resource consists of tables and graphs depicting the various properties for single-component, binary, and ternary oxide glasses. Fifth of five-volume series on glass data. Contains author, subject, and formula indexes.

Bison #:	SEL Reference TA403.4.H36 1992
Title:	HANDBOOK OF INDUSTRIAL MATERIALS, 2nd ed.
Author:	Elsevier, 1992
Properties:	Electrical; Mechanical; Physical; Thermal
Materials:	Adhesives; Alloys; General chemicals; Metals; Plastics; Sealants; Wood
Identifiers:	Acoustic impedence; Coefficient of coupling; Coefficient of thermal expansion;Compressibility; Density; Dielectric constant; Dielectric strength; Dissipation factor; Electrical resistance; Elongation; Fatigue limit; Flammability; Flexural modulus; Flexural strength; Hardness; Heat capacity; Heat deflection temperature; Impact strength; Izod impact; Joint strength; Melting range; Modulus of elasticity; Modulus of rigidity; Modulus of rupture; Permeability; Proof strength; Proof stress; Shear strength; Tensile strength; Thermal conductivity; Water absorption; Yield stress
Note:	This book provides properties data for ferrous metals, non- ferrous metals and alloys, plastics and composites, including ceramics, high performance polymers, metal-matrix composites, lubricants, powdered metals, magnetic materials, insulating materials, adhesives, sealants, and more. Data include chemical composition and chemical, physical, mechanical, and electrical properties, as well as information relating to the treatment and applications of the various materials.

Bison #:	SEL Reference QE1.M3 no.97
Title:	HANDBOOK OF PHYSICAL CONSTANTS, rev. ed.
Author:	S.P. Clark, Jr., Geological Society of America, 1966
Properties:	Crystallographic; Electrical; Magnetic; Mechanical; Physical; Radioactive; Thermal
Materials:	Elements; Inorganic chemicals; Minerals
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
Note:	This volume contains physical data needed for geological and geophysical calculations. The compilations of data are grouped by topic and indexed by property.

Bison #:	SEL Reference QC145.4 T5 V3713 1996
Title:	HANDBOOK OF PHYSICAL PROPERTIES OF LIQUIDS AND GASES, 3rd edition
Author:	N.B. Vargaftik et al., Begell House, Inc., 1996
Properties:	Physical; Thermal
Materials:	Fuels; Gases; Liquids, Metals; Oils; Organic chemicals
Identifiers:	Boiling point; Coefficient of thermal compressibility; Coefficient of thermodiffusion; Compressibility factor; Density; Diffusion coefficient; Electrical conductivity; Enthalpy; Entropy; Gibbs potential; Heat capacity at constant pressure; Heat capacity at constant volume; Heat of melting; Heat of vaporization; Kinematic viscosity; Melting point; Prandtl number; Pressure; Specific volume; Surface tension; Thermal conductivity; Thermal diffusivity; Thermodiffusion ratio; Velocity of sound; Viscosity; Volumetric component fraction; Volumetric expansion coefficient
Note:	This reference work provides thermodynamic and transport properties over a wide range of temperatures and pressures for a variety of materials of technological importance in the liquid, vapor, gaseous, dissociated, and ionized states.

Bison #:	SEL Reference QD257.7 H374 1997
Title:	HANDBOOK OF PHYSICAL PROPERTIES OF ORGANIC MATERIALS,
Author:	P.H. Howard and W.M. Meylan, Lewis Publishers, 1997
Properties:	Chemical; Physical
Materials:	Organic chemicals
Identifiers:	Acid dissociation constant; Atmospheric hydroxyl radial reaction rate constant; Boiling point; Chemical formula; Chemical structure; Freezing point; Henry’s Law constant; Melting point; Molecular weight; Octanol-water partition coefficient; Vapor pressure; Water solubility
Note:	This handbook contains physical and chemical properties data for approximately 12,000 organic chemicals of environmental, pharmaceutical, or commercial interest.

Bison #:	SEL Reference QC 917 S48 1997
Title:	HANDBOOK OF PSYCHROMETRIC CHARTS, HUMIDITY DIAGRAMS FOR ENGINEERS
Author:	D.C.Shallcross; Blackie Academic & Professional, 1997
Properties:	Physical
Materials:	Mixtures of gases and vapors
Identifiers:	Acentric factor; Condensed phase enthalpy coefficients; Henry's law coefficient; Ideal heat capacity coefficient; Isothermal compressibility coefficient; Latent heat of vaporization coefficient; Molar volume of liquids coefficient; Molecular weight; pseudocritical compressibility; pseudocritical pressure; pseudocritical temperature; pseudocritical volume; second virial correlation; third virial correlation; vapor pressure coefficients;
Note:	Fundamental aspects of psychrometry, information chart construction, physical property data and a collection of 274 psychrometric charts and humidity diagrams. References, general index, and chart index.

Bison #:	SEL Reference TP978.F54 1988
Title:	HANDBOOK OF THE RARE ELEMENTS, VOL. I: TRACE ELEMENTS AND LIGHT ELEMENTS,
Author:	1968
Properties:	Chemical; Physical; Mechanical; Optical; Radioactive; Thermal
Materials:	Elements
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
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.

Bison #:	SEL Reference RA1231.M52 H36 1979
Title:	HANDBOOK ON THE TOXICOLOGY OF METALS
Author:	L. Friberg, Elsevier/North-Holland, 1979
Properties:	Physical; Toxicological
Materials:	Heavy metals; Metals
Identifiers:	Atomic weight; Bioconcentration; Boiling point; Density; Dose effect relationship; Environmental fate; Environmental level; Exposures; Melting point; Metabolism
Note:	This is a comprehensive review of the biological effects of metals relevant to an understanding and evaluation of their toxicity. It is divided into two parts: the first deals with general aspects of the toxicity of metals; the second consists of individual chapters on specific metals. The main emphasis is on the toxic effects of metals to humans.

Bison #:	SEL Reference TD196.O73 M32 1992 v.2
Title:	ILLUSTRATED HANDBOOK OF PHYSICAL-CHEMICAL PROPERTIES AND ENVIRONMENTAL FATE FOR ORGANIC CHEMICALS: POLYNUCLEAR AROMATIC HYDROCARBONS, POLYCHLORINATED DIOXINS, AND DIBENZOFURANS, vol. 2
Author:	D. Mackay, Lewis, 1992
Properties:	Chemical; Physical; Toxicological
Materials:	Dioxins; Hydrocarbons; Organic chemicals; PAHs
Identifiers:	Air-water partition coefficient; Boiling point; Density; Fugacity ratio; Heat of fusion; Melting point; Molar volume; Molecular formula; Molecular volume; Molecular weight; Octanol-water partition coefficient; Total surface area; Vapor pressure; Water solubility
Note:	This book presents data for chemicals from three broad chemical groups: monoaromatic hydrocarbons, chlorobenzenes, and polychlorinated biphenyls. Data sheets provide for each chemical compound its common name; synonym; chemical name; CAS registry number; molecular formula; and molecular weight, as well as physical, environmental and toxicological properties data.

Bison #:	SEL Reference TD196.O73 M32 1992 v.3
Title:	ILLUSTRATED HANDBOOK OF PHYSICAL-CHEMICAL PROPERTIES AND ENVIRONMENTAL FATE FOR ORGANIC CHEMICALS: VOLATILE ORGANIC COMPOUNDS, vol. 3
Author:	D. Mackay, Lewis, 1992
Properties:	Chemical; Physical; Toxicological
Materials:	Hydrocarbons; Organic chemicals; Volatile organic compounds
Identifiers:	Air-water partition coefficient; Boiling point; Density; Fugacity ratio; Heat of fusion; Melting point; Molar volume; Molecular formula; Molecular volume; Molecular weight; Octanol-water partition coefficient; Total surface area; Vapor pressure; Water solubility
Note:	This book presents data for volatile organic compounds. Data sheets provide for each chemical compound its common name; synonym; chemical name; CAS registry number; molecular formula; and molecular weight, as well as physical, environmental and toxicological properties data.

Bison #:	SEL Reference TD196.O73 M32 1992 v.1
Title:	ILLUSTRATED HANDBOOK OF PHYSICAL-CHEMICAL PROPERTIES AND ENVIRONMENTAL FATE FOR ORGANIC COMPOUNDS: MONOAROMATIC HYDROCARBONS, CHLOROBENZENES AND PCBs, vol. 1
Author:	D. Mackay, Lewis, 1992
Properties:	Chemical; Physical; Toxicological
Materials:	Hydrocarbons: Organic chemicals; PCBs
Identifiers:	Air-water partition coefficient; Boiling point; Density; Fugacity ratio; Heat of fusion; Melting point; Molar volume; Molecular formula; Molecular volume; Molecular weight; Octanol-water partition coefficient; Total surface area; Vapor pressure; Water solubility
Note:	This book presents data for chemicals from three broad chemical groups: monoaromatic hydrocarbons, chlorobenzenes, and polychlorinated biphenyls. In addition for each chemical, data sheets provide: common name, synonym, chemical name, and CAS registry number.

Bison #:	SEL Reference TD196.O73 M32 1992 v.4
Title:	ILLUSTRATED HANDBOOK OF PHYSICAL-CHEMICAL PROPERTIES AND ENVIRONMENTAL FATE FOR ORGANIC COMPOUNDS: OXYGEN, NITROGEN, AND SULFUR CONTAINING COMPOUNDS, vol. 4,
Author:	D. Mackay, Lewis, 1992
Properties:	Chemical; Physical; Toxicological
Materials:	Alcohols; Aldehydes; Carboxylic acids; Esters; Ketones; Nitrogen compounds; Organic chemicals; Phenolic compounds; Sulfur compounds
Identifiers:	Air-water partition coefficient; Boiling point; Density; Fugacity ratio; Heat of fusion; Melting point; Molar volume; Molecular formula; Molecular volume; Molecular weight; Octanol-water partition coefficient; Total surface area; Vapor pressure; Water solubility
Note:	This book presents data for oxygen, nitrogen, and sulfur containing compounds. In addition, for each chemical data sheets provide: common name, synonym, chemical name, and CAS registry number.

Bison #:	SEL Reference TP247.5.I53 1985
Title:	INDUSTRIAL SOLVENTS HANDBOOK, 3rd ed.
Author:	E.W. Flick, Noyes Data Corporation, 1985
Properties:	Physical
Materials:	Hydrocarbons; Organic chemicals; Solvents
Identifiers:	Acidity; Aniline blood point; API gravity; Boiling point; Coefficient of expansion; Coefficient of thermal expansion; Composition; Congealing point; Critical pressure; Critical temperature; Density; Distillation range; Electrical conductivity; Evaporation rate; Fire point; Flammability limits; Flash point; Freezing point; Heat capacity; Heat of combustion; Heat of vaporization; Heating volume; Ignition temperature; Kauri-Butanol value; Lethal Dose 50 - LD-50; Pour point; Refractive index; Reid vapor pressure; Solidification point; Solubility; Specific gravity; Specific volume; Surface tension; Toxicity; Vapor pressure; Viscosity
Note:	The more than 1,100 tables in this book contain basic data on the physical properties of most solvents and on the solubilities of a variety of materials in these solvents. Phase diagrams for multicomponent systems are included. The book is organized by chemical group. The extensive table of contents serves as the index.

Bison #:	SEL Reference QD516.D695 1986
Title:	JANAF THERMOCHEMICAL TABLES 3rd ed., vols. 1-2
Author:	M.W. Chase, American Chemical Society, 1986
Properties:	Thermal
Materials:	General chemicals; Inorganic chemicals; Organic chemicals
Identifiers:	Enthalpy; Entropy; Fusion data; Gibbs energy of formation; Heat capacity; Logarithm of equilibrium constant
Note:	This handbook has become recognized as one of the best sources of accurate thermochemical reference data. Many properties of chemicals are listed, including heat formation, enthalpy, and entropy. Methods of calculation are included as well as definitions of terminology and indexes to the tables.

Bison #:	SEL Reference TA460.B65 1987 v.A
Title:	MATERIALS DATA FOR CYCLIC LOADING, PART A: UNALLOYED STEELS
Author:	C. Boller, Elsevier, 1987
Properties:	Mechanical
Materials:	Metals; Steels
Identifiers:	Ductility; Elongation; Fracture strain; Fracture stress; Hardening coefficient; Hardening exponent; Poisson's ratio; Probability of survival; Proof stress; Strain; Strength; Stress ratio; Tensile strength; Young's modulus
Note:	Data on the material fatigue behavior of certain alloys and metals are compiled into a collection of data sheets. The sheets give the chemical composition, stress-strain relationships and cyclic loading of the material.

Bison #:	SEL Reference TA460.B65 1987 v.B
Title:	MATERIALS DATA FOR CYCLIC LOADING, PART B: LOW-ALLOY STEELS
Author:	C. Boller, Elsevier, 1987
Properties:	Mechanical
Materials:	Alloys; Metals; Steel
Identifiers:	Ductility; Elongation; Fracture strain; Fracture stress; Hardening coefficient; Hardening exponent; Modulus of elasticity; Poisson's ratio; Probability of survival; Proof stress; Strain; Strength; Stress ratio; Tensile strength
Note:	Data on the material fatigue behavior of certain alloys and metals are compiled into a collection of data sheets. Each data sheet is a maximum of four pages. The sheets give the chemical composition, stress-strain relationships, and cyclic loading of the material.

Bison #:	SEL Reference TA460.B65 1987 v.C
Title:	MATERIALS DATA FOR CYCLIC LOADING, PART C: HIGH-ALLOY STEELS
Author:	C. Boller, Elsevier, 1987
Properties:	Mechanical
Materials:	Alloys; Metals; Steel
Identifiers:	Ductility; Elongation; Fracture strain; Fracture stress; Hardening coefficient; Hardening exponent; Poisson's ratio; Probability of survival; Proof stress; Strain; Strength; Stress ratio; Tensile strength; Young's modulus
Note:	Data on the material fatigue behavior of certain alloys and metals are compiled into a collection of data sheets. Each data sheet is a maximum of four pages. The sheets give the chemical composition, stress-strain relationships, and cyclic loading of the material.

Bison #:	SEL Reference TA460.B65 1987 v.D
Title:	MATERIALS DATA FOR CYCLIC LOADING, PART D: ALUMINUM AND TITANIUM ALLOYS
Author:	C. Boller, Elsevier, 1987
Properties:	Mechanical
Materials:	Alloys; Aluminum compounds; Metals
Identifiers:	Ductility; Elongation; Fracture strain; Fracture stress; Hardening coefficient; Hardening exponent; Modulus of elasticity; Poisson's ratio; Probability of survival; Proof stress; Strain; Strength; Stress ratio; Tensile strength
Note:	Data on the material fatigue behavior of certain alloys and metals are compiled into a collection of data sheets. Each data sheet is a maximum of four pages. The sheets give the chemical composition, stress-strain relationships, and cyclic loading of the material.

Bison #:	SEL Reference TA460.B65 1987 v.E
Title:	MATERIALS DATA FOR CYCLIC LOADING, PART E: CAST AND WELDED METALS
Author:	C. Boller, Elsevier, 1987
Properties:	Mechanical
Materials:	Metals; Titanium compounds
Identifiers:	Ductility; Elongation; Fracture strain; Fracture stress; Hardening coefficient; Hardening exponent; Modulus of elasticity; Poisson's ratio; Probability of survival; Proof stress; Strain; Strength; Stress ratio; Tensile strength
Note:	Data on the material fatigue behavior of certain alloys and metals are compiled into a collection of data sheets. The sheets give the chemical composition, stress-strain relationships and cyclic loading of the material.

Bison #:	SEL Reference TA460.B33 1990
Title:	MATERIALS DATA FOR CYCLIC LOADING, Supplement 1
Author:	A. Baumel, Jr., Elsevier, 1990
Properties:	Mechanical
Materials:	Alloys; Aluminum compounds; Metals; Steel; Titanium compounds
Identifiers:	Ductility; Elongation; Endurance limit; Fracture strain; Fracture stress; Hardening coefficient; Hardening exponent; Modulus of elasticity; Nominal stress; Poisson's ratio; Probability of survival; Proof stress; Strain; Strength; Stress ratio; Tensile strength; Vickers hardness;
Note:	This supplement contains more than 300 new data sets with about 2300 single fatigue test results. The evaluation methods were adapted slightly to obtain the endurance limits of the materials. Estimation formulas are provided to estimate material endurance limits, stress-strain law, and expected deviations to experimental observations.

Bison #:	SEL Reference TA 480.T54 M37 1994
Title:	MATERIALS PROPERTIES HANDBOOK: TITANIUM ALLOYS
Author:	G. Walsh, et al., editors, ASM International, 1994
Properties:	Chemical; Electrical; Magnetic; Mechanical; Physical; Thermal
Materials:	Titanium; Titanium alloys
Identifiers:	Atomic number; Atomic weight; Boiling point; Bulk modulus; Compressibility; Creep; Density; Elasticity; Electrical resistivity; Fatigue; Fracture; Hall coefficient; Hardness; Impact strength; Internal friction; Ion potential; Latent heat of fusion; Latent heat of transformation; Lattice parameters; Magnetic permeability; Magnetic susceptibility; Melting point; Oxidation; Phase diagrams; Poisson's ratio; Resistivity; Sonic velocities; Specific heat; Stress-strain curves; Superconductivity; Surface tension; Tensile strength; Thermal conductivity; Thermal diffusivity; Thermal expansion; Vapor pressure; Young's modulus
Note:	Compilation of properties data and processing information for titanium and its alloys. A summary table provides a general description and applications for each alloy. Detailed data sheets list physical, chemical, electrical, thermal, and mechanical properties. Extensive technical notes cover various fabrication processes including forging, forming, casting, heat treating, powder metallurgy, machining, rolling, welding, and brazing. The handbook includes phase diagrams.

Bison #:	SEL Reference QC100 U555 no.447
Title:	MECHANICAL PROPERTIES OF METALS AND ALLOYS
Author:	John L. Everhart, W. Earl Lindlief, James Kanegis, Pearl G. Weissler, Frieda Siegel, US Government Printing Office, 1943
Properties:	Electrical; Mechanical; Physical; Thermal
Materials:	Metals; Alloys
Identifiers:	Bend number; Brinell number; Coefficient of linear thermal expansion; Compressive strength; Creep strength; Electrical conductivity; Electrical resistivity; Elastic limit; Elongation; Endurance limit; Erichsen value; Freezing point; Growth; Hardness conversion; Impact value; Mesh fraction; Modulus of elasticity; Particle size; Poisson's ratio; Porosity; Powder; Proportional limit; Reduction of area; Rockwell number; Scleroscope number; Shear; Shearing strength; Shrinkage; Specific resistance; Strain; Stress; Temperature coefficient of thermal conductivity; Temperature coefficient of electrical resistivity; Tensile strength; Thermal conductivity; Thermal expansion; Torsional strength; Transformation range; Vickers number; Yield point; Yield strength.
Note:	This government circular from the Department of Commerce summarizes the results of a comprehensive survey of the technical literature on the strength and related properties of ferrous and nonferrous metals and alloys at normal, low, and high temperatures. Each section of the circular is devoted to the properties of one of the major industrial metals and its alloys; an additional section deals with the less common metals and alloys. A table of the chemical compositions of some commercial materials, with applicable specification designations of various organizations, introduces each section. The tables aid in locating specifications, but are not complete listings. Classification is made on the basis of composition.

Bison #:	SEL Reference R857.C4 M47 1984
Title:	METAL AND CERAMIC BIOMATERIALS, vols. 1-2
Author:	Paul Ducheyne, CRC Press, 1984
Properties:	Crystallographic; Mechanical; Physical;
Materials:	Biomaterials; Ceramics; Metals
Identifiers:	Annealing temperature; Bend strength; Boiling point; Coefficient of thermal expansion; Composition; Compressive strength; Dimensions; Electrical conductivity; Elongation; Fatigue strength; Flexural strength; Fracture toughness; Hardness; Heat capacity; Lattice type; Melting point; Modulus of elasticity; Oxidation potential; Poisson's ratio; Porosity; Softening temperature; Tensile strength; Thermal conductivity; Yield strength
Note:	Volume 1 discusses the structure of metals and ceramics, and the more recent surface analytical techniques for metals and ceramics. Volume 2 analyzes various properties. Strength-related behavior is treated first. In addition, mechanical behavior and biocompatibility are examined.

Bison #:	SEL Reference TA459.R65 1992
Title:	METALLIC MATERIALS SPECIFICATION HANDBOOK, 4th ed.
Author:	R.B. Ross, Chapman & Hall, 1992
Properties:	Electrical; Mechanical; Physical; Thermal
Materials:	Alloys; Metals; Steel
Identifiers:	Boiling point; Coefficient of electrical resistance; Coefficient of linear expansion; Crystal structure; Density; Electrical conductivity; Electrochemical equivalents; Electrode potential; Fatigue strength; Heat capacity; Heat of fusion; Heat of vaporization; Hot strength; Impact strength; Magnetic susceptibility; Melting point; Modulus of elasticity; Specific gravity; Specific resistance; Thermal conductivity; Thermal neutron absorption
Note:	This handbook lists chemical composition and physical properties, as well as all known trade names, codes, and specifications, for over 58 metals and their alloys. Materials are organized alphabetically by their primary constituent. The index lists materials by trade name, code, specification, and UNS number. Appendices include conversion tables and factors for common physical properties such as temperature, strength, hardness and thickness.

Bison #:	SEL Reference TA460.Z4913 1990
Title:	METALS AT HIGH TEMPERATURES: STANDARD HANDBOOK OF PROPERTIES
Author:	V.E. Zinov'yev, Hemisphere Publishing Corp., 1990
Properties:	Electrical; Physical; Thermal
Materials:	High temperature metals; Metals
Identifiers:	Atomic mass; Crystal structure; Debye temperature; Density; Diffusivity; Electrical conductivity; Hall coefficient; Modulus of elasticity; Poisson's coefficient; Resistivity; Shear modulus; Thermal conductivity; Thermal diffusivity
Note:	This handbook attempts to provide complete information on electrical and thermal conductivities, thermal diffusivity, thermoelectric power, and the Hall coefficient of metals for a broad temperature interval. In addition, the parameters derived from the velocity, elastic constants and moduli of elasticity are given over a broad temperature interval.

Bison #:	SEL Reference QE366.8 M55 1995
Title:	MINERAL PHYSICS & CRYSTALLOGRAPHY: A HANDBOOK OF PHYSICAL CONSTANTS
Author:	T.J. Ahrens, editor, American Geophysical Union, 1995
Properties:	Crystallographic; Electrical; Rheological; Spectral; Thermal
Materials:	Glasses; Minerals; Oxides; Silicates
Identifiers:	Bulk modulus; Crystal system; Debye temperature; Density; Diffusion coefficient; Elasticity; Electrical conductivity; Enthalpy; Entropy; Heat capacity; Infrared spectroscopy; Molar volume; Molecular formula; Molecular weight; Mossbauer spectroscopy; Nuclear magnetic resonance spectroscopy; Plasticity; Raman spectroscopy; Shock wave; Space group; Structure type; Thermal expansion; Thermal pressure; Viscosity
Note:	Provides selected properties data for minerals. Includes phase diagrams of earth-forming minerals, and data on infared, raman, and nuclear magnetic resonance spectroscopy of earth materials.

Bison #:	SEL Reference QD189 J35 1967
Title:	MOLTEN SALTS HANDBOOK
Author:	G.J. Janz, Academic Press, 1967
Properties:	Corrosion; Electrochemical; Mechanical; Physical; Spectral; Thermal
Materials:	Fused salts; Molten salts
Identifiers:	Absorption data; Association constant; Atomic radius; Boiling point; Coefficient of expansion; Compressibility; Critical constants; Cryoscopic constant; Crystal data; Density; Diffusion coefficient; Dielectric constant; Double layer capacity; Electrical conductivity; Electromagnetic field; Electromigration; Entropy of fusion; Entropy of vaporization; Expansivity; Friction coefficient; Heat capacity; Heat of formation; Heat of fusion; Heat of mixing; Heat of sublimation; Heat of vaporization; Henry's Law constant; Ionic mobility; Ionic radius; Immiscibility; Magnetic susceptibility; Melt conductance; Melt density; Melt viscosity; Melting point; Molar heat; Molar volume; Molecular weight; Nuclear magnetic resonance spectra; Neutron diffraction; Polarography; Raman spectra; Rao's constant; Refractive index; Solubility; Specific conductivity; Surface tension; Thermal conductivity; Transport number; Ultraviolet spectra; Vapor pressure; Velocity of sound; Vibrational spectra; Viscosity; Visible spectra; X ray diffraction
Note:	The material presented in this handbook is organized into five areas: physical properties, thermodynamic properties, electrochemical properties, spectroscopy and structure, and practical features. Topics such as phase equilibria, molten salt electrolytes, and chemical syntheses are presented in annotated bibliography and table form. A sixth section on experimental techniques includes illustrations of design features for various experimental assemblies and an extensive annotated bibliography. Also includes a chemical formula index.

Bison #:	SEL Reference QD181.O1 F5813
Title:	OXIDE HANDBOOK
Author:	G.V. Samsonov, IFI/Plenum, 1973
Properties:	Atomic; Crystallographic; Electrical; Magnetic; Mechanical; Optical; Thermal
Materials:	Elements; Metals; Nonmetallic solids; Oxides
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
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.

Bison #:	SEL Reference TP200.Y38
Title:	PHYSICAL PROPERTIES
Author:	C.L. Yaws, Chemical Engineering, 1979
Properties:	Physical; Thermal
Materials:	Inorganic chemicals; Organic chemicals
Identifiers:	Boiling point; Critical compressibility; Critical pressure; Critical temperature; Critical volume; Density; Free energy of formation; Heat capacity; Heat of formation; Heat of vaporization; Melting point; Surface tension; Thermal conductivity; Vapor pressure; Viscosity
Note:	A book of graphs for substances ranging from certain elements and simple inorganic compounds to simple hydrocarbons. The graphs plot such properties as heat of vaporization, vapor pressure, and surface tension against temperature.

Bison #:	SEL Reference TA455 P58 P475 1996
Title:	PHYSICAL PROPERTIES OF POLYMERS HANDBOOK
Author:	J.E. Mark, editor, American Institute of Physics, 1996
Properties:	Electrical; Magnetic; Mechanical; Optical; Spectral; Thermal
Materials:	Polymers
Identifiers:	Biodegradation; Compressibility; Density; Electrical conductivity; Enthalpy; Flammability; Heat capacity; Infrared spectroscopy; Neutron scattering; NMR spectroscopy; Refractive index; Solubility; Thermal conductivity; Thermal expansion; Theta temperature; Viscosity; X-ray scattering
Note:	This handbook consists of individual sections written by experts which cover the properties of polymeric materials, particularly those properties most relevant to the areas of physical chemistry and chemical physics. The book includes tables, graphs, equations, and extensive references to the research literature.

Bison #:	SEL Reference TP200.P49 1989
Title:	PHYSICAL PROPERTY DATA FOR THE DESIGN ENGINEER
Author:	C.F. Beaton, Hemisphere Publishing Corp., 1989
Properties:	Mechanical; Physical; Thermal;
Materials:	Fluids; Organic chemicals
Identifiers:	Boiling point; Critical density; Critical pressure; Critical temperature; Density; Dielectric constant; Enthalpy; Entropy; Heat capacity; Internal energy; Melting point; Molecular weight; Prandtl number; Pressure; Specific volume; Surface tension; Temperature at saturation; Thermal conductivity; Vapor density; Viscosity
Note:	This book's information is a recompilation of data presented in HEAT EXCHANGER DESIGN HANDBOOK. Materials information is reorganized to bring all information together for a given substance under one entry. It covers about 250 organic and inorganic substances. The bulk of the volume supplies values for the thermodynamic and transport properties of the liquid, gaseous and saturated vapor phases at several selected temperatures.

Bison #:	SEL Reference QD388 P65 1989
Title:	POLYMER HANDBOOK 3rd ed.
Author:	J. Brandrup and E.H. Immergut, Wiley, 1989
Properties:	Crystallographic; Electrical; Mechanical; Optical; Physical; Rheological; Thermal
Materials:	Polymers; Rubber
Identifiers:	Activation energy; Boiling point; Bulk modulus; Coefficient of thermal expansion; Compressibility; Creep rate; Decomposition rate; Depolymerization rate; Dielectric constant; Diffusion; Dipole moments; Enthalpy; Entropy; Flammability; Flexural modulus; Fractionation; Hardness; Heat capacity; Heat of combustion; Heat of formation; Heat of fusion; Impact strength; Lattice constants; Melting point; Modulus of elasticity; Molecular weight; Particle size; Permeability; Poisson's ratio; Polymerization rate; Propagation constant; Rate of crystallization; Reactivity ratio; Refractive index; Relative viscosity; Resilience; Resistivity; Shear modulus; Solubility; Sonic velocity; Specific gravity; Specific heat; Spectra; Surface tension; Tensile strength; Thermal conductivity; Thermal degradation; Thermal diffusivity; Viscosity; Wear;
Note:	Contains over 70 tables containing data and constants for polymers. Tables are divided into eight sections: nomenclature rules; polymerization and depolymerization; physical properties of monomers and solvents; physical data of oligomers; physical constants of several important polymers; solid state properties; solution properties and abbreviations of polymers. Includes phase diagrams.

Bison #:	SEL Reference QC482.D5 P643 1988
Title:	POWDER DIFFRACTION FILE, ALPHABETICAL INDEXES, INORGANIC PHASES
Author:	International Centre for Diffraction Data, 1994
Properties:	Optical
Materials:	General chemicals; Inorganic chemicals; Powders
Identifiers:	X-ray powder diffraction data
Note:	Lists alphabetically the names of the substances in the cumulative sets of the Powder Diffraction File. Each name is accompanied by the chemical formula, the three strongest lines of the powder pattern with their relative intensities, and the PDF number of the corresponding data card. It is arranged into nine sections: Inorganic Names, Mineral Names, Mineral Groups, Common Names, Zeolites and Molecular Sieves, Metals and Alloys Common Names, Strukturbericht Symbols and Equivalents, Cement and Hydration Products, and Explosives and Related Materials. This edition also includes a Deleted Patterns Index.

Bison #:	SEL Reference TA403.4.P7 1989
Title:	PRACTICAL HANDBOOK OF MATERIALS SCIENCE
Author:	C.T. Lynch, CRC Press, 1989
Properties:	Chemical; Electrical; Physical; Thermal;
Materials:	Alloys; Ceramics; Composites; Elements; General chemicals; Graphite; Metals; Minerals; Polymers; Refractory materials; Superconductors; Wood
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;
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.

Bison #:	SEL Reference QE431.6P5 C73 1989
Title:	PRACTICAL HANDBOOK OF PHYSICAL PROPERTIES OF ROCKS AND MINERALS
Author:	R.S. Carmichael, CRC Press, 1989
Properties:	Electrical; Physical; Radioactive
Materials:	Fuels; Minerals; Rocks
Identifiers:	Bulk volume; Cell dimensions; Chemical compositions; Coercive force; Compressive strength; Curie temperature; Density; Dielectric constants; Electrical conductivity; Grain volume; Magnetic susceptibility; Modulus of elasticity; Modulus of rigidity; Neel temperature; Permeability; Poisson's ratio; Pore volume; Porosity; Radioactivity; Resistivity; Saturation magnetization; Seismic attenuation; Seismic velocities; Spectroscopic properties; Young's modulus
Note:	This book serves as a convenient, compact, yet comprehensive source of basic information on rocks and minerals. Each section is written by a different author. The chapters cover mineral composition of rocks; densities of rocks and minerals; inelastic properties of rocks and minerals; strength and rheology; magnetic properties; electrical properties; seismic velocities; seismic attenuation; radioactivity; spectroscopic properties and engineering properties.

Bison #:	SEL Reference TK7871.15.S6 P74 1985
Title:	PROPERTIES OF AMORPHOUS SILICON
Author:	INSPEC, 1985
Properties:	Electrical; Mechanical; Optical; Spectral; Thermal
Materials:	Semiconductors; Silicon
Identifiers:	Ambipolar diffusion length; Conductivity; Density; Electron mobility; Hole mobility; IR absorption spectra; Luminescence spectra; Optical absorption spectra; Optical energy gap; Photoconductivity; Photoluminescence; Spin density
Note:	This reference book, volume 3 in the ELECTRONIC MATERIALS INFORMATION SERVICE (EMIS) DATA REVIEWS SERIES, summarizes the important properties of amorphous silicon. Each section has been written by an expert in the field. The book includes reviews, evaluations, tables, graphs and references to the research literature.

Bison #:	SEL Reference TK7871.15.G3 P76 1996
Title:	PROPERTIES OF GALLIUM ARSENIDE 3rd ed.,
Author:	INSPEC, 1996
Properties:	Electrical; Optical; Physical; Spectral; Thermal
Materials:	Gallium arsenide; Semiconductors
Identifiers:	Absorption coefficient; Bulk modulus; Carrier concentrations; Coefficient of thermal expansion; Density; Dielectric constant; Diffusion; Electron mobility; Heat capacity; Hole mobility; Infrared absorption; Ionization rates; Lattice parameters; Photoconductivity; Photoluminescence; Refractive index; Resistivity; Thermal conductivity; Thermal diffusivity
Note:	This book, Volume 16 in the ELECTRONIC MATERIALS INFORMATION SERVICE (EMIS) DATA REVIEWS SERIES, contains physical, electronic, and optical properties of gallium arsenide.

Bison #:	SEL Reference TP242.R4 1987
Title:	PROPERTIES OF GASES AND LIQUIDS, 4th ed.
Author:	R.C. Reid, McGraw Hill Book Co., 1987
Properties:	Physical; Thermal
Materials:	Gases; Liquids
Identifiers:	Boiling point; Density; Diffusion coefficient; Enthalpy; Fluid phase equilibria; Freezing point; Gibb's energy of formation; Heat capacity; Surface tension; Thermal conductivity; Vapor pressure; Viscosity
Note:	This book presents a critical review of various estimation procedures for a limited number of properties of gases and liquids; critical and other pure component properties; and thermodynamic properties of pure components and mixtures. Comparisions of experimental and estimated values are shown.

Bison #:	SEL Reference TA455.N5.P76 1994
Title:	Properties of Group III Nitrides
Author:	James H. Edgar, INSPEC, 1994
Properties:	Optical; Electrical Transport; Physical; Mechanical; Thermal;
Materials:	Group III Nitrides, Boron Nitride, Aluminium nitride, Gallium nitride, Indium nitride,
Identifiers:	Band offset; Bulk modulus; Coefficient of linear thermal expansion; Crystal structure; Density; Entropy; Heat capacity; Heat of formation; IR reflection spectra; Lattice parameters; Ohmic contacts; Phonon wavenumber; Poisson's ratio; Raman relection spectra; Refractive index; Schottky barrier; Young's modulus
Note:	Information on Group III Nitrides including: phase diagrams; various properties; band structure; photoluminescence; cathodoluminescence; raman and IR relection spectroscopy; defects and impurities; and material interfaces. Subject index included.

Bison #:	SEL Reference TA 455 N5 P76 1994
Title:	PROPERTIES OF GROUP III NITRIDES
Author:	Edgar, James H.; INSPEC, 1994
Properties:	Optical; Electrical Transport; Physical; Mechanical; Thermal;
Materials:	Group III Nitrides, Boron Nitride, Aluminium nitride, Gallium nitride, Indium nitride,
Identifiers:	Band offset; Bulk modulus; Coefficient of linear thermal expansion; Crystal structure; Density; Entropy; Heat capacity; Heat of formation; IR reflection spectra; Lattice parameters; Ohmic contacts; Phonon wavenumber; Poisson's ratio; Raman relection spectra; Refractive index; Schottky barrier; Young's modulus;
Note:	Information on Group III Nitrides including: phase diagrams; various properties; band structure; photoluminescence; cathodoluminescence; raman and IR relection spectroscopy; defects and impurities; and material interfaces. Subject index included.

Bison #:	SEL Reference TK7871.15.I53 P76 1991
Title:	PROPERTIES OF INDIUM PHOSPHIDE
Author:	INSPEC, 1991
Properties:	Electrical; Physical; Radioactive; Spectral; Thermal
Materials:	Indium phosphide; Semiconductors
Identifiers:	Absorption coefficient; Bulk modulus; Carrier concentration; Coefficient of thermal expansion; Density; Dielectric constant; Diffusion; Electron mobility; Heat capacity; Hole mobility; Infrared absorption; Ionization rates; Photoconductivity; Photoluminescence; Piezoelectric constant; Raman spectroscopy; Refractive index; Resistivity; Thermal conductivity
Note:	This book, Volume 6 in the ELECTRONIC MATERIALS INFORMATION SERVICE (EMIS) DATA REVIEWS SERIES, provides a compilation of important properties data for indium phosphide.

Bison #:	SEL Reference QD162.P76 1989
Title:	PROPERTIES OF NONMETALLIC FLUID ELEMENTS
Author:	C.Y. Ho, Hemisphere Publishing Corp., 1989
Properties:	Physical; Thermal
Materials:	Elements; Fluids; Gases; Liquids; Nonmetallic liquids
Identifiers:	Heat capacity; Prandtl number; Thermal conductivity; Viscosity
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.

Bison #:	SEL Reference TA455.P58 V35 1990
Title:	PROPERTIES OF POLYMERS, 3rd ed.
Author:	D.W. Van Krevelen, Elsevier, 1990
Properties:	Acoustical; Mechanical; Physical; Thermal
Materials:	Polymers
Identifiers:	Cohesive energy; Compressive strength; Dielectric constant; Elongation; Enthalpy; Entropy; Flexural strength; Heat capacity; Huggins constant; Latent heat; Morphology; Phase transition; Poisson's ratio; Refractive index; Shear modulus; Solubility; Surface tension; Tensile strength; Thermal conductivity; Thermal decomposition; Transition temperature; Viscosity
Note:	This book correlates known properties of polymers with chemical structure and provides methods for estimating the most basic properties when measurements are not available. The main estimation schemes presented consist of a variety of group contribution methods. The book covers thermophysical characteristics, properties in a force field, transport properties, chemical stability and breakdown. The final section consists of comprehensive tables. An appendix gives trade names and manufacturers.

Bison #:	SEL Reference TP 261 C3 P76 1995
Title:	PROPERTIES OF SILICON CARBIDE
Author:	INSPEC, 1995
Properties:	Optical; Paramagnetic; Physical; Carrier
Materials:	Silicon carbide
Identifiers:	Acoustic velocity; Carrier density; Density; Dielectric constant; Effective mass; Lattice parameters; ODMR; Optical absorption; Phonons; Photoluminescence spectra; Polytypes; Refractive index; Thermal conductivity; Young's modulus
Note:	This reference book, part of the ELECTRONIC MATERIALS INFORMATION SERVICE (EMIS) DATA REVIEWS SERIES, summaries the important properties of silicon carbide, in addition to band structure; energy levels; surface structure, metallization and oxidation; etching; diffusion of impurities and ion implantation; growth; SiC devices and OHMIC contacts. Subject index included.

Bison #:	SEL Reference T55.3.H3 S3 1992
Title:	SAX'S DANGEROUS PROPERTIES OF INDUSTRIAL MATERIALS, 8th ed., vols. 1-3
Author:	R.J. Lewis, Van Nostrand Reinhold, 1992
Properties:	Chemical; Physical; Toxicological
Materials:	General chemicals; Hazardous chemicals; Organic chemicals
Identifiers:	Autoignition temperature; Boiling point; Density; Explosive limits; Flash point; Hazard rating; LD-50 - Lethal dose - 50; Melting point; Molecular weight; PEL - Permissible exposure limits; REL - Recommended exposure levels; TLV - Threshold limit values; Toxicity data
Note:	This handbook covers such subjects as radiation problems, cancer, noise, air pollutants, fire dangers, microwaves, and food additives. It provides information on chemicals, including flammability, explosivity, toxic and disaster ratings, physical constants, antidotal information, and formulas. In addition, regulations, various related legislation, and shipping, handling, and labeling procedures are covered.

Bison #:	SEL Reference QC100.U555 no.500
Title:	SELECTED VALUES OF CHEMICAL THERMODYNAMIC PROPERTIES
Author:	F.D. Rossini, National Bureau of Standards, 1952
Properties:	Thermal
Materials:	General chemicals; Inorganic chemicals; Organic chemicals
Identifiers:	Entropy; Entropy of fusion; Entropy of transition; Entropy of vaporization; Equilibrium constant of formation; Free energy of formation; Heat capacity; Heat of formation; Heat of fusion; Heat of transition; Heat of vaporization; Temperature of fusion; Temperature of vaporization; Transition temperature
Note:	Contains all the tables of Series I and II issued in loose-leaf form plus all their references. The series has attempted to assemble all the published data related to heats of reaction and to prepare therefrom a self-consistent table of select values of the heats of formation of the chemical substances.

Bison #:	SEL Reference QC100.U555 no.500 1961
Title:	SELECTED VALUES OF CHEMICAL THERMODYNAMIC PROPERTIES, vols. 1-2
Author:	F.D. Rossini, National Bureau of Standards, 1961
Properties:	Thermal
Materials:	General chemicals; Inorganic chemicals; Organic chemicals
Identifiers:	Entropy; Entropy of fusion; Entropy of transition; Entropy of vaporization; Equilibrium constant of formation; Free energy of formation; Heat capacity; Heat of formation; Heat of transition; Heat of vaporization; Temperature of fusion; Temperature of vaporization; Transition temperature
Note:	Contains all the tables of Series I and II issued in loose-leaf form plus all their references. The series has attempted to assemble all the published data related to heats of reaction and to prepare therefrom a self-consistent table of select values of the heats of formation of the chemical substances. This edition is a reissuance of the 1952 edition; it is not a revised edition.

Bison #:	SEL Reference QD305.H5 R62
Title:	SELECTED VALUES OF PHYSICAL AND THERMODYNAMIC PROPERTIES OF HYDROCARBONS AND RELATED COMPOUNDS
Author:	F.D. Rossini, Carnegie Press, 1953
Properties:	Physical; Thermal
Materials:	Hydrocarbons; Organic chemicals
Identifiers:	Boiling point; Compressibility; Constant of formation; Critical density; Critical pressure; Critical temperature; Critical volume; Density; Enthalpy; Entropy; Entropy of fusion; Entropy of vaporization; Free energy function; Free energy of formation; Free energy of vaporization; Freezing point; Heat capacity; Heat of combustion; Heat of formation; Heat of fusion; Heat of vaporization; Molecular refraction; Molecular volume; Pressure coefficient of boiling point; Refractive index; Refractivity intercept; Specific dispersion; Specific gravity; Surface tension; Triple point; Vapor pressure; Viscosity
Note:	This reference work presents physical and thermodynamic properties in tabulated format for a variety of substances, including aliphatic and aromatic hydrocarbons, ketones, aldehydes, ethers, and alcohols.

Bison #:	SEL Reference QD171.S44
Title:	SELECTED VALUES OF THE THERMODYNAMIC PROPERTIES OF BINARY ALLOYS
Author:	R. Hultgren, American Society for Metals, 1973
Properties:	Thermal
Materials:	Alloys
Identifiers:	Absolute temperature; Distribution coefficient; Electronic heat capacity; Enthalpy; Enthalpy of fusion; Enthalpy of vaporization; Entropy; Gibbs energy measurement; Heat capacity; Phase diagrams; Vapor pressure
Note:	This book presents in tabular form thermodynamic data for binary alloys, including updated phase diagrams of each system. Data has been tested for consistency with thermodynamic laws and with the phase diagram. Tables are generally limited to those temperatures and compositions experimentally studied. Data generated from the phase diagrams and theories of solution have been avoided.

Bison #:	SEL Reference QD171.S442
Title:	SELECTED VALUES OF THE THERMODYNAMIC PROPERTIES OF THE ELEMENTS
Author:	R. Hultgren, American Society for Metals, 1973
Properties:	Thermal
Materials:	Alloys; Elements; Metals
Identifiers:	Critical temperature; Electronic heat capacity; Enthalpy; Entropy; Heat capacity; Heat of formation; Vapor pressure
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.

Bison #:	SEL Reference TN671.S55 1992
Title:	SMITHELLS METALS REFERENCE BOOK, 7th ed.
Author:	E.A. Brandes, Butterworth Heinemann, 1992
Properties:	Chemical; Crystallographic; Electrical; Magnetic; Mechanical; Physical; Radioactive; Thermal
Materials:	Alloys; Elements; Metals; Steel
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
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.

Bison #:	SEL Reference QC176.8.T4 C49 1988
Title:	SPECIFIC HEAT OF SOLIDS
Author:	C.Y. Ho, Hemisphere Publishing Corp., 1988
Properties:	Thermal
Materials:	General chemicals; Solids
Identifiers:	Heat capacity
Note:	This volume's contents may be grouped into three categories: theory, measurement techniques, and general interest items. The emphasis is on well-established techniques for measuring the specific heat of solids. Techniques in which specific heat is obtained only as a by-product of measurement of primarily other properties are not covered. It presents more theory on specific heat, alimetry, calorimetry, etc., than tabulated values.

Bison #:	SEL Reference TA479 S7 S677 1994
Title:	STAINLESS STEELS
Author:	J.R. Davis, ASM International, 1994
Properties:	Corrosion; Mechanical; Physical; Thermal
Materials:	Stainless steels
Identifiers:	Boiling point; Creep rupture strength; Density; Electrical resistivity; Fatigue life; Fracture toughness; Melting range; Modulus of elasticity; Specific heat; Tensile strength; Thermal conductivity; Thermal expansion; Wear rates; Yield strength; Young's modulus
Note:	Serves as a guide to the properties, selection and application of stainless steels. This handbook is divided into five major sections: introduction to stainless steels, corrosion behavior, fabrication and finishing, metallography, microstructures and phase diagrams, and properties of stainless steels.

Bison #:	SEL Reference QC100.U555 no.539
Title:	STANDARD X-RAY DIFFRACTION POWDER PATTERNS
Author:	H.E. Swanson, National Bureau of Standards, 1953
Properties:	Optical
Materials:	Elements; General chemicals; Inorganic chemicals; Powders
Identifiers:	Coefficient of thermal expansion; Density; Interplaner spacing; Lattice constants; Refractive indices; X-ray diffraction powder patterns
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.

Bison #:	SEL Reference QC100.U556 no.25
Title:	STANDARD X-RAY DIFFRACTION POWDER PATTERNS, vols. 7-18
Author:	H.E. Swanson, National Bureau of Standards, 1969
Properties:	Optical
Materials:	General chemicals; Powders
Identifiers:	Coefficient of thermal expansion; Density; Interplanar spacing; Lattice constants; Refractive indices; X-ray diffraction powder patterns
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.

Bison #:	SEL Reference QC61.K3 1995
Title:	TABLES OF PHYSICAL AND CHEMICAL CONSTANTS AND SOME MATHEMATICAL FUNCTIONS, 16th ed.
Author:	G.W.C. Kay, T.H. Laby, Longman, 1995
Properties:	Acoustical; Atomic; Chemical; Electrical; Magnetic; Mechanical; Optical; Physical; Radioactive; Thermal
Materials:	Elements; Inorganic chemicals; Organic chemicals; Polymers
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
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.

Bison #:	SEL Reference QC182.S25 1989
Title:	THERMAL ACCOMMODATION AND ADSORPTION COEFFICIENTS OF GASES
Author:	C.Y. Ho, Hemisphere Publishing Corp., 1989
Properties:	Thermal
Materials:	Gases
Identifiers:	Partial accommodation coefficient; Potential energy function; Thermal accommodation coefficient
Note:	This work attempts a comprehensive treatment of all aspects relevant to thermal accommodation. It includes a description of the heat transfer theories describing the phenomenon in different pressure regions. Also covered are the experimental methods used to measure thermal accommodation, theoretical expressions designed to estimate it, and a large body of available data on specific gas-solid systems in relation to the specific conditions for which they were generated.

Bison #:	SEL Reference QC145.4.T5 S74 1988
Title:	THERMAL CONDUCTIVITY AND VISCOSITY DATA OF FLUID MIXTURES, vol. 1
Author:	K. Stephan, Institut for Technische Thermodynamik, 1988
Properties:	Physical; Thermal
Materials:	Fluids
Identifiers:	Enthalpy; Entropy; Interfacial tension; Phase equilibrium data; Thermal conductivity; Viscosity
Note:	This book contains information on thermal conductivity and viscosity data for about 1,800 binary, ternary and quaternary mixtures, recommended values of the thermal conductivity of 26 binary mixtures and recommended values of the viscosity of 30 binary mixtures. The compiled results are presented as a literature guide, data tables and plots. Mixing rules, together with least square fitted coefficients, are given to allow rapid and simple calculation of thermal conductivity and viscosities of mixtures.

Bison #:	SEL Reference QD476.I554 1980
Title:	THERMODYNAMIC AND TRANSPORT PROPERTIES OF ORGANIC SALTS
Author:	P. Franzosini, Pergamon Press, 1980
Properties:	Mechanical; Thermal
Materials:	Organic chemicals; Salts
Identifiers:	Coefficient of thermal expansion; Enthalpy; Entropy; Heat capacity; Molar conductivity; Molar volume; Phase diagrams; Solubility; Temperature of fusion; Transition temperature; Viscosity
Note:	The material in this book is arranged in three parts, dealing with pure salts, mixtures and solutions, respectively. Additional information thought to be of interest for a better general knowledge of these salts is given in two appendixes on the structure of pure solids and the uses of melts in electrochemical studies. The book is arranged by property type and class of compound.

Bison #:	SEL Reference QC165.5.R5813 1988
Title:	THERMODYNAMIC PROPERTIES OF GASES, 4th ed.
Author:	S.L. Rivkin, Hemisphere Publishing Corp., 1988
Properties:	Thermal
Materials:	Gases
Identifiers:	Enthalpy; Entropy; Heat capacity; Internal energy; Molecular mass; Relative pressure; Relative volume; Temperature
Note:	This book contains tables of thermodynamic properties of gases and thermal diagrams for air and products of combustion of a given fuel. The various gases covered include air, nitrogen, atmospheric nitrogen, oxygen, carbon dioxide, water vapor, carbon monoxide, hydrogen, and helium.

Bison #:	SEL Reference QC173.397.P87 v.6
Title:	THERMOPHYSICAL PROPERTIES OF MATTER: SPECIFIC HEAT - NONMETALLIC LIQUIDS AND GASES, vol. 6
Author:	Y.S. Touloukian, IFI/Plenum, 1970
Properties:	Physical; Thermal
Materials:	Gases; Liquids; Nonmetallic gases; Nonmetallic liquids
Identifiers:	Specific heat
Note:	Each volume in this series 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.

Bison #:	SEL Reference QC173.397.P87 v.5
Title:	THERMOPHYSICAL PROPERTIES OF MATTER: SPECIFIC HEAT - NONMETALLIC SOLIDS, vol. 5
Author:	Y.S. Touloukian, IFI/Plenum, 1970
Properties:	Physical; Thermal
Materials:	Nonmetallic solids; Solids
Identifiers:	Heat capacity
Note:	Each volume in this series 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 includes the contents of all of the other volumes in the set.

Bison #:	SEL Reference QC173.397.P87 v.1
Title:	THERMOPHYSICAL PROPERTIES OF MATTER: THERMAL CONDUCTIVITY - METALLIC ELEMENTS AND ALLOYS, vol. 1
Author:	Y.S. Touloukian, IFI/Plenum, 1970
Properties:	Thermal
Materials:	Alloys; Elements; Intermetallic compounds; Metals
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;
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.

Bison #:	Each volume in this series consists of three sections: some text (with references) to 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 includes the contents of all of the other volumes in the set.
Title:	THERMOPHYSICAL PROPERTIES OF MATTER: THERMAL CONDUCTIVITY - NONMETALLIC LIQUIDS AND GASES, vol. 3
Author:	SELREF/QC173.397.P87 v.3
Properties:	Physical; Thermal
Materials:	Gases; Liquids; Nonmetallic gases; Nonmetallic liquids
Identifiers:	Thermal conductivity
Note:	*

Bison #:	SEL Reference QC173.397.P87 v.2
Title:	THERMOPHYSICAL PROPERTIES OF MATTER: THERMAL CONDUCTIVITY - NONMETALLIC SOLIDS, vol. 2
Author:	Y.S. Touloukian, IFI/Plenum, 1970
Properties:	Physical; Thermal
Materials:	Nonmetallic solids; Solids
Identifiers:	Thermal conductivity
Note:	Each volume in this series 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 includes the contents of all of the other volumes in the set.

Bison #:	SEL Reference QC173.397.P87 v.13
Title:	THERMOPHYSICAL PROPERTIES OF MATTER: THERMAL EXPANSION - NONMETALLIC SOLIDS, vol. 13
Author:	Y.S. Touloukian, IFI/Plenum, 1977
Properties:	Physical; Thermal
Materials:	Nonmetallic solids; Solids
Identifiers:	Crystal structure; Density; Melting point
Note:	Each volume in this series consists of three sections: some text (with references) to 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 includes the contents of all of the other volumes in the set.

Bison #:	SEL Reference QC173.397.P87 v.8
Title:	THERMOPHYSICAL PROPERTIES OF MATTER: THERMAL RADIATIVE PROPERTIES - NONMETALLIC SOLIDS, vol. 8
Author:	Y.S. Touloukian, IFI/Plenum, 1972
Properties:	Physical; Thermal
Materials:	Nonmetallic solids; Solids
Identifiers:	Absorptivity; Emissivity; Reflectivity; Transmissivity
Note:	Each volume in this series 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 includes the contents of all of the other volumes in the set.

Bison #:	SEL Reference TJ1075.T755 1997
Title:	TRIBOLOGY DATA HANDBOOK
Author:	Ricard E. Booser, CRC Press, 1997
Properties:	Physical; Gas; Mechanical; Material; Tribological
Materials:	Polyalphaolefins; Organic Esters; Polyalkylene Glycols; Phosphate Esters; Silicones; Perfluoroalkylpolyethers; Polychlorotrifluoroethylenes; Polybutenes; Vegetable Oils; Greases; Solid Lubricants; Metal Films; Organic Polymers; Ceramics; Metals; Alloys
Identifiers:	Bulk modulus; Contact geometry; Contact pressure; Density; Dynamic seals; Dynamic viscosity; Elastohydrodynamic; Fire point; Flash point; Friction coefficient; Kinematic viscosity; Mean free path; Pour point; Pressure-viscosity coeefficient; PV limit; Rockwell hardness; Seal face; Specific heat; Specific volume; Thermal conductivity; Thermal expansion coefficient; Viscosity; Wear coefficient
Note:	Information on lubricant properties; lubrication specifications for various types of equipment and applications; material properties; surface and wear characterization; toxicology/environmental issues; monitoring/maintenance/failure patterns; and component performance and design data. Appendices include material hardness tables, tests and data; viscosity conversion factors; and unit conversion factors.