Treatise on Materials Science and Technology, Volume 31 |
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Page 12
It contains nominally 2.5% Cu, 0.5% Mg, and .25% Mn. Alloy 2036-T4 was used
to solve particular weight problems in the 1970s, but its lower formability
compared to 1010 steel and its higher cost have limited its use. III. Al-Mg-Si
Alloys A.
It contains nominally 2.5% Cu, 0.5% Mg, and .25% Mn. Alloy 2036-T4 was used
to solve particular weight problems in the 1970s, but its lower formability
compared to 1010 steel and its higher cost have limited its use. III. Al-Mg-Si
Alloys A.
Page 229
Cassada et al. [34] suggest that in 2090-type Al-Li alloys, T2-phase is stable over
the temperature range 170-520°C. Consequently, ... The effect of magnesium
addition on the phase equilibria of Al-Li alloys has been reported by a number of
...
Cassada et al. [34] suggest that in 2090-type Al-Li alloys, T2-phase is stable over
the temperature range 170-520°C. Consequently, ... The effect of magnesium
addition on the phase equilibria of Al-Li alloys has been reported by a number of
...
Page 531
A model for the oxidation of Al-4.2 wt % Mg alloy has been developed which is
based on the disruption of the protective, "amorphous" y-Al2O3 overlayer by
penetrating magnesium oxides which vary in size with temperature [8,41].
Primary ...
A model for the oxidation of Al-4.2 wt % Mg alloy has been developed which is
based on the disruption of the protective, "amorphous" y-Al2O3 overlayer by
penetrating magnesium oxides which vary in size with temperature [8,41].
Primary ...
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Contents
History of WroughtAluminumAlloy Development | 4 |
AlMgSi Alloys | 12 |
3 | 22 |
Copyright | |
76 other sections not shown
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Common terms and phrases
2XXX 5XXX 7XXX alloys Acta addition aircraft Al-Li alloys Al-Mg Alcoa Alcoa Laboratories alloying elements alloys containing aluminum alloys Aluminum-Lithium Alloys annealing anodic applications ARALL Laminate behavior commercial Composite Materials constituent copper decrease deformation density developed dislocation dispersoids ductility E.A. Starke effect elongation extrusion fibers formability fracture fracture-toughness grain boundaries grain growth hardening heat heat-treatable high-strength higher hydrogen increase ingot interface intermetallic lithium magnesium matrix mechanical properties metal Metallurgy microstructure modulus mold nucleation occurs oxide particles PFZs phase plane PM alloys powder precipitates precipitation-hardening quenching rapid solidification recrystallized grain reduced reinforced resistance rolling shear sheet shown in Fig solid solution strain rate strain-hardening strengthening stress corrosion cracking stress-corrosion structure subgrain superplastic superplastic forming surface temper temperature tensile texture thermal tion toughness Trans transverse treatment volume fraction Warrendale welding whiskers yield strength zones
Bibliographic information
| Title | Treatise on Materials Science and Technology, Volume 31 Treatise on Materials Science and Technology, Herbert Herman |
| Editor | Herbert Herman |
| Publisher | Academic Press, 1989 |
| Original from | the University of Michigan |
| Digitized | 29 Nov 2007 |
| ISBN | 0123418313, 9780123418319 |
| Length | 702 pages |
| Export Citation | BiBTeX EndNote RefMan |