Modern industrial development has put forward higher demands on the performance of
metallic structural materials, especially in terms of light weight, high strength and corrosion …

The distribution and partitioning of solute atoms in age-hardenable aluminum (Al) alloys
markedly impact strength, ductility and failure of alloy materials, thus rendering the …

Abstract T-Mg 32 (AlZnCu) 49 phase-strengthened Al–Mg–Zn–Cu alloys have shown a
promising age-hardening response. However, the age-hardening mechanism underlying …

Abstract Al-Mg-Zn-(Cu) crossover alloys, embracing the advantages of traditional 5xxx and
7xxx series aluminum alloys, are being designed to achieve a better trade-off between …

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 …

Abstract Al-Mg-Zn-based alloys are newly developed high-performance age-hardenable
5xxx series alloys. However, they suffer from poor surface quality due to the Lüders bands …

The precipitation behaviors and thermal stability of Al-3.5 Mg-1.0 Cu alloys with co-addition
of Zn and Si were investigated in this study. The results show that the addition of Zn to Al-Mg …

Improving the strength continues to be the key to the development of high-performance Al-
Mg-Zn (-Cu) crossover alloys. Here, a novel ultra-high strength Al-5.64 Mg-5.43 Zn-0.51 Cu …

Chemical short-range order (CSRO) refers to atoms of specific elements self-organising
within a disordered crystalline matrix to form particular atomic neighbourhoods. CSRO is …

A manufacturing-driven ICME framework is proposed to model short fiber reinforced ceramic
matrix composites (CMCs) via direct ink writing. Currently, there lacks efforts to investigate …