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

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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 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 TA403.4 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 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 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.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.

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