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Home > Libraries > Science & Engineering > Materials Properties Locator Database > Search Results

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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 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 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 TA403.4 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 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 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 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 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 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 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 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.

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