Abstract Understanding 6xxx AA (Al–Mg–Si alloys) relies heavily on structural analysis at the
atomic level. Because the nanoscale precipitates that form during artificial ageing essentially …

Al–Si–Cu–Mg cast aluminum alloys have important applications in automobile lightweight
due to their advantages such as high strength-to-weight ratio, good heat resistance and …

Abstract The effects of Al (MnFe) Si dispersoids, with different sizes and number densities,
on the evolution of microstructure and ambient/elevated-temperature mechanical properties …

Casting aluminum alloys are commonly used in industries due to their excellent
comprehensive performance. Alloying/microalloying and post-solidification heat treatments …

A new generation of aluminum alloys, strengthened by the T-Mg 32 (AlZn (Cu)) 49 phase,
has been created in the last decade based on the 5xxx series Al–Mg alloy, modified with …

The columnar-to-equiaxed transition (CET) is known to impact crack formation during the
additive manufacturing of metallic alloys. While previous experiments have shown that CET …

A simultaneous achievement of high strength and toughness, as well as high conductivity in
traditional Al-1.9 Mn cast aluminum alloy used in the manufacture of water-cooled radiator …

Abstract For an ICME (Integrated Computational Material Engineering) modeling framework
used for the age-hardening aluminum alloy design and heat treatment parameters …

Alumina hollow spheres with a diameter range of 1–2 mm were filled in 6061 Al alloy by
gravity infiltration casting to synthesize Al-matrix syntactic foams. The effects of infiltration …

The coupling of computational thermodynamics and kinetics has been the central research
theme in Integrated Computational Material Engineering (ICME). Two major bottlenecks in …