X

Properties of Aluminum Alloys: Tensile, Creep, and Fatigue Data at High and Low Temperatures (#09813G)

Product ID : 18190767
5 out of 5 stars


Galleon Product ID 18190767
Model
Manufacturer
Shipping Dimension Unknown Dimensions
I think this is wrong?
-
20,213

*Price and Stocks may change without prior notice
*Packaging of actual item may differ from photo shown

Pay with

About Properties Of Aluminum Alloys: Tensile, Creep, And

Buy both the Properties of Aluminum Alloys book and the single-workstation CD-ROM and save! Also available, the Properties of Aluminum Alloys CD-ROM for Microsoft Access 97. Published: 1999 This book compiles more than 300 tables listing typical average properties of a wide range of aluminum alloys. The individual test results were compiled, plotted in various ways, and analyzed. The average values from the tensile and creep tests were then normalized to the published typical room-temperature tensile properties of the respective alloys for easy comparison. This extensive project was done by Alcoa Laboratories over a period of several years. The types of data presented include: Typical Mechanical Properties of Wrought and Cast Aluminum Alloys at Various Temperatures, including tensile properties at subzero temperatures, at temperature after various holding times at the test temperature, and at room temperature after exposure at various temperatures for various holding times; creep rupture strengths for various times at various temperatures; stresses required to generate various amounts of creep in various lengths of time; rotating-beam fatigue strengths; modulus of elasticity as a function of temperature. Fatigue Data, including fatigue strength of wrought aluminum alloys (approximate average values as determined in tests of smooth and notched rotating-beam fatigue machines), axial stress fatigue strength of wrought aluminum alloys (at various stress ratios, smooth and notched specimens), average fatigue strength for aluminum and aluminum alloy flat sheet specimens (under complete reversed flexure), cantilever-beam fatigue test results of aluminum alloys at elevated temperatures, and cantilever-beam fatigue test results of aluminum alloys at elevated temperatures following stabilization at the test temperature.