Reprint
Aluminum Alloys
Edited by
January 2018
374 pages
- ISBN978-3-03842-474-1 (Paperback)
- ISBN978-3-03842-475-8 (PDF)
This book is a reprint of the Special Issue Aluminum Alloys that was published in
Chemistry & Materials Science
Engineering
Format
- Paperback
License
© 2019 by the authors; CC BY license
Keywords
Al–Li–S4 Al–Li alloy; stretch-forming; orange peel; forming limit; surface roughness; precipitation-hardened alloys; Al alloys; tensile properties; temperature effects; property modeling; 7075 Al alloy; SIMA; phase transformation; semi-solid; thixoforming; superhydrophobic aluminum; corrosion; anodized aluminum oxide (AAO); organic-inorganic; micro-nanostructure; zinc stearate (ZnSA); potentiodynamic polarization; electrochemical impedance spectroscopy (EIS); activation energy; hot deformation; aluminum alloy; deformation mode; aluminum alloys; AlZnMg; AlCuMg; viscoelasticity; dynamic-mechanical analysis; internal friction; loading frequency; fatigue; cryoforging; anodization; tensile properties; corrosion resistance; light poles; aluminum alloy; welding; gas metal arc welding; artificial aging; post weld heat treatment; microstructure; tensile properties; aluminum alloy; heat treatment; anisotropy; microstructure; texture; thin-walled component; residual stress; deformation; CNC machining; structural quality; metal fatigue; weakest link; elongation; friction stir lap welding; aluminum alloy; welding speed; defect feature; mechanical performance; bilateral slid rolling process (BSRP); surface integrity; aluminum alloys; thin-walled structure; friction spot welding; surface roughness; dissimilar welding; polyethylene terephthalate (PET); aluminum alloy; bubble; Lüders effect; digital image correlation; thickness dependence; 5456 Al-based alloy; homogenization; aluminum alloys; extrudability; metallographic indices; Friction Stir Welding; AA1050; Cu; mechanical properties; microstructure; forward tube spinning; 3A21-O aluminum alloy; Gurson-Tvergaard-Needleman (GTN) damage model; finite element (FE) model; crack; mechanical alloying; nanocrystalline; crystallite sizes; morphology; 2219 aluminum alloy; creep; creep mechanism; constitutive modeling; ECAE; simple shear; deformation structure; substructural alignment; EBSD; aluminium alloys; Al-Zn-Mg-Cu alloys; CALPHAD; differential scanning calorimetry; aluminum alloy; Strain-Induced Melt Activation (SIMA); mechanical properties; AA 2024; titanium; cold spray; laser treating; coating; wear; tribotest; aluminum alloy AA2024-T351; dry machining; cutting/feed forces; chip segmentation; built-up edge; FE modeling; welding distortion; residual stress; inherent strain method; 2524 aluminum alloy; creep aging; fatigue fracture behavior; aging precipitation; electromagnetic forming (EMF); stiffened panel; numerical simulation; hypereutectic aluminum alloy; DISPAL; laser welding; nonequilibrium solidification