Journal Publications
- [1]High stress twinning in a compositionally complex steel of very high stacking fault energy.Nature Communications, 2022, 13: 3598.
- [2]Deformation-induced crystalline to amorphous phase transformation in a CrMnFeCoNi high-entropy alloy.Science Advances, 2021, 7: eabe3105.
- [3]Mechanism of room-temperature superplasticity in ultrafine-grained Al–Zn alloys.Acta Materialia, 2023, 246: 118671.
- [4]Influence of lowering basal stacking fault energy on twinning behaviours.Acta Materialia, 2023, 245: 118637.
- [5]Digital twin for directional solidification of a single-crystal turbine blade.Acta Materialia, 2023, 244: 118579.
- [6]Unusual precipitation induced by solute segregation in coherent twin boundary in titanium alloys.Acta Materialia, 2023, 242: 118466.
- [7]Shearing and rotation of β″ and β' precipitates in an Al-Mg-Si alloy under tensile deformation: In-situ and ex-situ studies.Acta Materialia, 2021, 220: 117310.
- [8]Atomic-scale understanding of stress-induced phase transformation in cold-rolled Hf.Acta Materialia, 2017, 131: 271-279.
- [9]Enhanced strength-ductility synergy of medium-entropy alloys via multiple level gradient structures.International Journal of Plasticity, 2023, 164: 103592.
- [10]Atomic-scale study of the {11-21} twinning and {11-22}-{11-21} double twinning mechanisms in pure titanium.International Journal of Plasticity, 2023, 160: 103486.
- [11]Atomic-scale understanding of the reversible HCP-FCC phase transition mechanisms at {10-11} twin-tip in pure titanium.International Journal of Plasticity, 2022, 156: 103357.
- [12]Atomic-level study of {10-11} deformation twinning in pure Ti and Ti-5at.% Al alloy.International Journal of Plasticity, 2022, 153: 103273.
- [13]Simultaneously enhancing strength and ductility of a high-entropy alloy via gradient hierarchical microstructures.International Journal of Plasticity, 2019, 123: 178-195.
- [14]Nitrogen induced hierarchical structures overcome strength-ductility trade-off in an additively manufactured high entropy alloy.Applied Materials Today, 2020, 18: 100498.
- [15]BODIPY-based conjugated porous polymers for highly efficient volatile iodine capture.Journal of Materials Chemistry A, 2017, 5: 6622-6629.
- [16]Towards strength-ductility synergy in Al alloys via dislocation gradient structure.Materials Research Letters, 2023, 11: 347–353.
- [17]Unraveling the origin of multiple cracking in an additively-manufactured Haynes 230.Materials Research Letters, 2023, 11: 281–288.
- [18]Extraordinary tensile properties of titanium alloy with heterogeneous phase-distribution based on hetero-deformation induced hardening.Materials Research Letters, 2020, 8: 254-260.
- [19]Enhancement of strength and ductility by interfacial nano-decoration in carbon nanotube/aluminum matrix composites.Carbon, 2020, 159: 201-212.
- [20]Large-scale synthesis and outstanding microwave absorption properties of carbon nanotubes coated by extremely small FeCo-C core-shell nanoparticles.Carbon, 2019, 153: 52-61.
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Min Song
 Office Phone:10f12992cfd8b921513171701cbf6c75a1c9a08335f71555398d01f8d57d96f09b5f91b0634d92d050281567f8caba6adefed363e52b0e60868082e3512d0dfcdd140099c894d7135b2c77677aed2bb831b9a82d67d4c4ed38bd45132575f0ba155eef3f3c3725a4c7d4666ff3613c43d6ab47e765e604be8df1feb91894de99 Email:530debe1c734559b571063b7e7b9c1ef94f41d04883865d86a6262d618001a86acfe798136f45ca53cbbf93bfcc399df7fcea43c29777a8a561c884d3842a0e9111bbc8edcc5ac8043330ee31142bc4fb711f4864b873280b32d9b549a8ef57c6633b0e3cdc5a15cbf7dff31174ba2e193b1bd097e61abd82b1f98c621705b7f
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