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Parametric Analyses of High-Temperature Data for Aluminum Alloys

Parametric Analyses of High-Temperature Data for Aluminum Alloys contains background educational materials on parametric analyses, extensive data, and previously unpublished master high-temperature curves for wrought and cast aluminum alloys. Contents cover theory and applications of time-temperature parameters; data sets for wrought alloys and cast alloys; aluminum alloy and temper designation systems; terminology and nomenclature; and more.

Aluminum Alloy Castings: Properties, Processes, and Applications

This book provides property and performance data for all types of aluminum alloy castings and reviews and describes the factors that contribute to and affect those properties, including composition, microstructure, casting process, heat treatment, and quality assurance. The electronic publication features extensive collections of property and performance data, including previously unpublished aging response curves, growth curves, and fatigue curves, presented in consistent formats to enable easy comparisons among different alloys and tempers. The authors have endeavored to address all of the casting process technologies available for aluminum alloys. Engineering information is included for expendable mold, permanent mold, and pressure die casting processes and their variations. The focus of the process coverage is to review the effects of process selection and process variables on casting properties and performance.

Fracture Resistance of Aluminum Alloys: Notch Toughness, Tear Resistance, and Fracture Toughness

Fracture Resistance of Aluminum Alloys presents one of the most complete compendiums of notch-tensile, tear, and fracture toughness data ever compiled. Information and data are included for a wide range of aluminum alloys, tempers, and products (sheet, plate, extrusions, forgings, and castings). Typical and minimum plane-stress and plane-strain fracture toughness values are given for many high strength alloys. The effects of temperature are covered extensively, especially for the notch-tensile and tear data. Fracture data for welds as well as the parent alloys and products also are included.

Introduction to Aluminum Alloys and Tempers

Since aluminum alloys offer an excellent combination of light weight, high-strength, great corrosion resistance and reasonable cost, they have become one of the most commonly used metal groups today. This electronic publication addresses the need for basic information on aluminum alloys and their tempers. The author provides the reader with an understanding of the advantages and limitations of aluminum alloys and temper combinations in terms of the relationship of their composition, process history, and microstructure to service requirements. The temper designation of an aluminum alloy provides the user with background information as to how the alloy has been produced in order to obtain specific and desired properties and characteristics.