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[1]Achieving springback-free age forming via dislocation-enhanced stress relaxation in Al alloy.Journal of Materials Science & Technology, 2025: xx.
[2]Structural relevance among nano-phases along the common habit planes {111} and its implications for the design of cross-over Al alloys.Acta Materialia, 2025, 283: 12053.
[3]Integrating reversion ageing and forming of high-strength Al alloys: principles and theoretical basis.International Journal of Machine Tools and Manufacture, 2024, 194: 104091.
[4]Superposed hardening from precipitates and dislocations enhances strength-ductility balance in Al-Cu alloy.International Journal of Plasticity, 2022, 158: 103413.
[5]First-Principles Insights into Complex Interplays Among Nano-Phases in an Al-Cu-Li-Zr Alloy.Acta Materialia, 2022, 239: 118304.
[6]Making sustainable aluminum by recycling scrap: The science of “dirty” alloys.Progress in Materials Science, 2022, 128: 100947.
[7]Strong in-plane anisotropy of creep ageing behavior in largely pre-deformed Al-Cu alloy: experiments and constitutive modeling.International Journal of Plasticity, 2022, 152: 103245.
[8]Improving formability and retaining dislocation hardening of heavily cold-worked Al alloy by fast heating and fast deformation.Materials Science and Engineering: A, 2021, 819: 141455.
[9]Reversion of natural ageing and restoration of quick bake-hardening response in Al-Zn-Mg-Cu alloy.Journal of Materials Science & Technology, 2021, 95: 88-94.
[10]Initial holding time dependent warm deformation and post-ageing precipitation in an AA7075-T4 aluminum alloy.Journal of Materials Processing Technology, 2021, 294: 117111.
[11]Large creep formability and strength–ductility synergy enabled by engineering dislocations in aluminum alloys.International Journal of Plasticity, 2020, 134: 102774.
[12]Stress-relaxation ageing behavior and microstructural evolution under varying initial stresses in an Al-Cu alloy: Experiments and modeling.International Journal of Plasticity, 2020, 127: 102646.
[13]Revealing extra strengthening and strain hardening in heterogeneous two-phase nanostructures.International Journal of Plasticity, 2020, 126,: 102626.
[14]Natural-ageing-enhanced precipitation near grain boundaries in high-strength aluminum alloy.Journal of Materials Science & Technology, 2020, 46: 107-113.
[15]Stress-level-dependency and bimodal precipitation behaviors during creep ageing of Al-Cu alloy: Experiments and modeling.International Journal of Plasticity, 2018
[16]Stabilizing Al–Mg–Si–Cu alloy by precipitation nano-phase control.Materials Science & Engineering A, 2019
[17]Pre-strain-dependent natural ageing and its effect on subsequent artificial ageing of an Al-Cu-Li alloy.Journal of Alloys and Compounds, 2019
[18]The formation of a new intermediate phase and its evolution toward θ' during aging of pre-deformed Al-Cu alloys.Journal of Materials Science & Technology, 2019
[19]Solute Sn-induced formation of composite β′/β″ precipitates in Al-Mg-Si alloy.Scripta Materialia, 2018, 155,: 68-72.
[20]Multiple precipitation reactions and formation of θ'-phase in a pre-deformed Al–Cu alloy.Materials Science & Engineering A, 2018
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