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Bison
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SEL Reference TA 480 A6 A6177 1993 |
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Title: |
ALUMINUM AND ALUMINUM ALLOYS |
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Author: |
J.R. Davis, ASM International, 1993 |
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Properties: |
Corrosion; Mechanical; Physical; Thermal |
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Materials: |
Aluminum; Aluminum alloys |
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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 |
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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. |
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Bison
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SEL Reference TN690.B528 1990 |
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Title: |
BINARY ALLOY PHASE DIAGRAMS, 2nd ed., vols. 1-3 |
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Author: |
T.B. Massalski, ASM International, 1990 |
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Properties: |
Crystallographic; Magnetic; Thermal |
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Materials: |
Alloys; Elements |
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Identifiers: |
Atomic weight; Crystal structure; Curie temperature; Enthalpy; Entropy; Heat capacity; Lattice parameters; Melting points; Neel temperature; Pearson symbol; Phase diagrams; Phase transition temperature; Saturation magnetic moment; Space group; Stability; Transformation temperature |
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Note: |
This book presents phase diagrams for binary alloys. Each entry may consist of the assessed phase diagram, an abridged version of published text, a special points table, a crystal structure table and a list of selected key references on which the phase diagram has been based. Diagrams are plotted in both atomic and weight percentages, with temperature values given in Celsius. Alloy system identification lists the major component metal first. |
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Bison
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SEL Reference TA479 C37 C37 1996 |
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Title: |
CARBON AND ALLOY STEELS |
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Author: |
J.R. Davis, ASM International, 1996 |
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Properties: |
Corrosion; Fatigue; Fracture; Mechanical; Physical |
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Materials: |
Alloys; Carbon steels; Steel alloys |
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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 |
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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. |
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Bison
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SEL Reference TA418.74 S38 1995 |
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Title: |
CORROSION RESISTANCE TABLES, 4th ed. |
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Author: |
P.A. Schweitzer, Marcel Dekker, Inc., 1995 |
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Properties: |
Corrosion; Mechanical |
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Materials: |
Alloys; Metals; Plastics; Rubbers (synthetic and natural) |
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Identifiers: |
Chemical synonyms; Galvanic corrosion; General corrosion; Generic names; Intergranular corrosion; Stress corrosion; Trade names |
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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. |
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Bison
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SEL Reference TA403.H3 1974 v.2 |
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Title: |
CRC HANDBOOK OF MATERIALS SCIENCE, vol. 2 |
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Author: |
C.T. Lynch, CRC Press, 1974 |
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Properties: |
Mechanical; Physical; Thermal |
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Materials: |
Alloys; Aluminum; Aluminum compounds; Ceramics; Composites; Glass; Inorganic chemicals; Metals; Oxides; Refractory materials; Steel |
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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 |
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Note: |
This handbook includes information on such materials as nuclear materials, graphites, polymers, aluminum, ferrous alloys, nickel, and glass. The physical properties of these materials are tabulated and phase diagram charts and standards are included. Each volume is thoroughly indexed. |
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Bison
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SEL Reference TA472.E63 1982 |
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Title: |
ENGINEERING PROPERTIES OF STEEL |
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Author: |
P.D. Harvey, American Society for Metals, 1982 |
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Properties: |
Mechanical; Physical |
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Materials: |
Alloys; Steel |
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Identifiers: |
Elongation; Hardness; Heat capacity; Machinability rating; Machinability ratio; Reduction; Resistivity; Tensile strength; Thermal conductivity; Thermal expansion; Transformation temperature; Yield strength |
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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. |
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Bison
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SEL Reference TA 484 F37 1995 |
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Title: |
Fatigue Data Book: Light Structural Alloys; |
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Author: |
ASM International, 1995 |
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Properties: |
Mechanical; Physical; Thermal; Corrosion |
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Materials: |
Aluminum Alloys, Magnesium Alloys, Titanium Alloys |
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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; |
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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. |
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Bison
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SEL Reference TA403.6.G85 1986 |
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Title: |
GUIDE TO MATERIALS ENGINEERING DATA AND INFORMATION |
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Author: |
ASM International, 1986 |
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Properties: |
Physical |
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Materials: |
Alloys; Elements; Metals |
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Identifiers: |
Atomic weight; Boiling point; Coefficient of thermal expansion; Density; Electrical conductivity; Electrical resistivity; Heat of fusion; Lattice constants; Melting point; Modulus of elasticity; Thermal conductivity |
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Note: |
A ready-reference guide to questions related to metals or materials science. In addition to complete physical property data on the elements and alloys, it provides information in tabular form on metric conversions, as well as general engineering reference tables. It provides ready access to complete industrial alloy cross-referencing, with extensive directories on materials manufacturers, composite suppliers, and manufacturers. |
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Bison
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SEL Reference TA403.4.H36 1992 |
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Title: |
HANDBOOK OF INDUSTRIAL MATERIALS, 2nd ed. |
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Author: |
Elsevier, 1992 |
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Properties: |
Electrical; Mechanical; Physical; Thermal |
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Materials: |
Adhesives; Alloys; General chemicals; Metals; Plastics; Sealants; Wood |
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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 |
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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. |
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Bison
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SEL Reference TA460.B65 1987 v.B |
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Title: |
MATERIALS DATA FOR CYCLIC LOADING, PART B: LOW-ALLOY STEELS |
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Author: |
C. Boller, Elsevier, 1987 |
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Properties: |
Mechanical |
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Materials: |
Alloys; Metals; Steel |
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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 |
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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. |
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Bison
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SEL Reference TA460.B65 1987 v.C |
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Title: |
MATERIALS DATA FOR CYCLIC LOADING, PART C: HIGH-ALLOY STEELS |
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Author: |
C. Boller, Elsevier, 1987 |
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Properties: |
Mechanical |
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Materials: |
Alloys; Metals; Steel |
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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 |
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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. |
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Bison
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SEL Reference TA460.B65 1987 v.D |
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Title: |
MATERIALS DATA FOR CYCLIC LOADING, PART D: ALUMINUM AND TITANIUM ALLOYS |
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Author: |
C. Boller, Elsevier, 1987 |
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Properties: |
Mechanical |
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Materials: |
Alloys; Aluminum compounds; Metals |
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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 |
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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. |
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Bison
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SEL Reference TA460.B33 1990 |
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Title: |
MATERIALS DATA FOR CYCLIC LOADING, Supplement 1 |
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Author: |
A. Baumel, Jr., Elsevier, 1990 |
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Properties: |
Mechanical |
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Materials: |
Alloys; Aluminum compounds; Metals; Steel; Titanium compounds |
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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; |
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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. |
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Bison
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SEL Reference TA 480.T54 M37 1994 |
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Title: |
MATERIALS PROPERTIES HANDBOOK: TITANIUM ALLOYS |
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Author: |
G. Walsh, et al., editors, ASM International, 1994 |
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Properties: |
Chemical; Electrical; Magnetic; Mechanical; Physical; Thermal |
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Materials: |
Titanium; Titanium alloys |
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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 |
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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. |
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Bison
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SEL Reference QC100 U555 no.447 |
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Title: |
MECHANICAL PROPERTIES OF METALS AND ALLOYS |
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Author: |
John L. Everhart, W. Earl Lindlief, James Kanegis, Pearl G. Weissler, Frieda Siegel, US Government Printing Office, 1943 |
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Properties: |
Electrical; Mechanical; Physical; Thermal |
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Materials: |
Metals; Alloys |
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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. |
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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. |
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Bison
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SEL Reference TA459.R65 1992 |
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Title: |
METALLIC MATERIALS SPECIFICATION HANDBOOK, 4th ed. |
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Author: |
R.B. Ross, Chapman & Hall, 1992 |
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Properties: |
Electrical; Mechanical; Physical; Thermal |
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Materials: |
Alloys; Metals; Steel |
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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 |
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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. |
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Bison
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SEL Reference TA403.4.P7 1989 |
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Title: |
PRACTICAL HANDBOOK OF MATERIALS SCIENCE |
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Author: |
C.T. Lynch, CRC Press, 1989 |
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Properties: |
Chemical; Electrical; Physical; Thermal; |
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Materials: |
Alloys; Ceramics; Composites; Elements; General chemicals; Graphite; Metals; Minerals; Polymers; Refractory materials; Superconductors; Wood |
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Identifiers: |
Annealing point; Arc resistance; Atomic weight; Boiling point; Bond length; Coefficient of cubical expansion; Compressive strength; Critical temperature; Crystal structure; Density; Dielectric constant; Dielectric strength; Electrical resistivity; Entropy; Flammability; Flexural modulus; Flexural strength; Freezing point; Half life; Hardness; Heat capacity; Heat deflection temperature; Heat of fusion; Heat of transition; Ionization potential; Izod impact; Loss factor; Melting point; Melting range; Modulus of elasticity; pH; Porosity; Refractive index; Softening point; Solubility; Specific gravity; Strain point; Temperature coefficient; Tensile modulus; Tensile strength; Thermal conductivity; Thermal neutron absorption; Transition temperature; Valence; Vapor pressure; Water absorption; Yield strength; |
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Note: |
This book is a supplement to the original CRC HANDBOOK OF MATERIALS SCIENCE. Several sections, such as those dealing with composite materials, have been updated to stay abreast of the advances in the field. A complete revision of the materials information section has been included to provide the reader with current information on the federal laboratory and information services in the field of materials science and engineering. |
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Bison
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SEL Reference QD171.S44 |
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Title: |
SELECTED VALUES OF THE THERMODYNAMIC PROPERTIES OF BINARY ALLOYS |
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Author: |
R. Hultgren, American Society for Metals, 1973 |
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Properties: |
Thermal |
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Materials: |
Alloys |
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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 |
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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. |
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Bison
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SEL Reference QD171.S442 |
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Title: |
SELECTED VALUES OF THE THERMODYNAMIC PROPERTIES OF THE ELEMENTS |
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Author: |
R. Hultgren, American Society for Metals, 1973 |
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Properties: |
Thermal |
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Materials: |
Alloys; Elements; Metals |
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Identifiers: |
Critical temperature; Electronic heat capacity; Enthalpy; Entropy; Heat capacity; Heat of formation; Vapor pressure |
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Note: |
This book presents in tabular form thermodynamic data for the elements, including updated phase diagrams of each. Data has been tested for consistency with thermodynamic laws and with then phase diagrams. |
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Bison
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SEL Reference TN671.S55 1992 |
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Title: |
SMITHELLS METALS REFERENCE BOOK, 7th ed. |
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Author: |
E.A. Brandes, Butterworth Heinemann, 1992 |
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Properties: |
Chemical; Crystallographic; Electrical; Magnetic; Mechanical; Physical; Radioactive; Thermal |
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Materials: |
Alloys; Elements; Metals; Steel |
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Identifiers: |
Atomic weight; Boiling point; Bulk modulus; Coefficient of resistivity; Coefficient of thermal expansion; Coercive force; Creep; Density; Electrical conductivity; Elongation; Entropy; Flux density; Fracture toughness; Free energy of formation; Hardness; Heat capacity; Heat of formation; Heat of fusion; Heat of vaporization; Impact energy; Lattice constants; Mass absorption coefficient; Maximum work temperature; Melting point; Modulus of elasticity; Modulus of rigidity; Molar heat capacity; Photoelectric emission coefficient; Poisson's ratio; Proof stress; Relative permeability; Resistivity; Shear strength; Specific gravity; Spectral emission coefficient; Sublimation point; Surface tension; Tensile strength; Thermal conductivity; Viscosity; Wavelength |
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Note: |
This handbook contains information on the technology and science of metallic materials, including metallurgical processes and techniques and physical, chemical, electrical, mechanical, and magnetic properties of metals. There are chapters on shape memory alloys, vapor-deposited coatings, superplasticity, ceramics, x-ray analysis of metallic materials, crystallography, crystal chemistry, metallography, mechanical testing, sintered materials, friction and wear, engineering ceramics and other materials. |
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Bison
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SEL Reference QC173.397.P87 v.1 |
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Title: |
THERMOPHYSICAL PROPERTIES OF MATTER: THERMAL CONDUCTIVITY - METALLIC ELEMENTS AND ALLOYS, vol. 1 |
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Author: |
Y.S. Touloukian, IFI/Plenum, 1970 |
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Properties: |
Thermal |
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Materials: |
Alloys; Elements; Intermetallic compounds; Metals |
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Identifiers: |
Atomic weight; Boiling point; Critical temperature; Crystal structure; Curie temperature; Debye temperature; Density; Melting point; Neel temperature; Phase transition temperature; Superconducting transition temperature; Thermal conductivity; |
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Note: |
Each volume in this set consists of three sections: some text (with references) on the theory, estimation and measurement of the property under consideration; numerical data in the form of graphs and tables with references to data sources in the primary literature; and an index to the materials covered. Most of the material is in tabular or graphic format. The index of each volume also lists the contents of all of the other volumes in the set. |
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Bison
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SEL Reference TJ1075.T755 1997 |
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Title: |
TRIBOLOGY DATA HANDBOOK |
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Author: |
Ricard E. Booser, CRC Press, 1997 |
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Properties: |
Physical; Gas; Mechanical; Material; Tribological |
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Materials: |
Polyalphaolefins; Organic Esters; Polyalkylene Glycols; Phosphate Esters; Silicones; Perfluoroalkylpolyethers; Polychlorotrifluoroethylenes; Polybutenes; Vegetable Oils; Greases; Solid Lubricants; Metal Films; Organic Polymers; Ceramics; Metals; Alloys |
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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 |
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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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