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Junyang He
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[1]W. Yang, K. Lin, Junyang He.Targeting Superior Zero Thermal Expansion Material by the Concept of TRIP-Invar.Adv. Funct. Mater., 2025, e22039
[2]Li Wang, Junyang He, Yong Liu, Revealing the unique evolution and splitting behavior of carbides at atomic-scale in TiAl alloys: the role of elastic interactions and chemical fluctuations.Acta Mater., 2025, 296: 121277.
[3]Junyang He, S. K. Makineni, On the atomic solute diffusional mechanisms during compressive creep deformation of a Co-Al-W-Ta single crystal superalloy.Acta Mater., 2020, 184: 86-99.
[4]Junyang He, Zhaoping Lu, A precipitation-hardened high-entropy alloy with outstanding tensile properties.Acta Mater., 2016, 102: 187-196.
[5]Junyang He, Zhaoping Lu, Effects of Al addition on structural evolution and tensile properties of the FeCoNiCrMn high-entropy alloy system.Acta Mater., 2014, 62: 105-113.
[6]Junyang He, Zhenggang Wu, Min Song, ZP Lu, Weijin Cai.Significantly enhanced mechanical properties of NiCoV medium-entropy alloy via precipitation engineering.Inter. J. Plasticity, 2024, 104180
[7]Deyou Fan, Min Song, Junyang He, Solid-solution like or nanoprecipitation like: the role of chemical short-range order in strengthening CoNiV.Mater. Res. Lett., 2025, 13: 1269-1277.
[8]Kening Chen, Junyang He, Xiaoyong Zhang, Unexpected strengthening and toughening effects of B minor alloying in a new low-density near-α titanium alloy.Scripta Mater., 2024, 254: 116318.
[9]Yunsong Zhao, Na Li, Li Wang, Junyang He, High-temperature creep-induced site occupation evolution in the γ′ lattice in a Ru-bearing Ni-based superalloy.Mater. Res. Lett., 2023, 11: 888-895.
[10]Junyang He, Min Song, Zhongnan Bi, Unravelling the origin of multiple cracking in an additively manufactured Haynes 230.Mater. Res. Lett., 2022, 11: 281-288.
[11]Junyang He, Xiaoxiang Wu, S. K. Makineni, On the compositional and structural redistribution during partial recrystallisation: a case of σ-phase precipitation in a Mo-doped NiCoCr medium-entropy alloy.Scripta Mater., 2021
[12]Junyang He, S. K. Makineni, On the formation of hierarchical microstructure in a Mo-doped NiCoCr medium-entropy alloy with enhanced strength-ductility synergy.Scripta Mater., 2020, 175: 1-6.
[13]Junyang He, B. Gault, On the rhenium segregation at the low angle grain boundary in a single crystal Ni-base superalloy.Scripta Mater., 2020, 185: 88-93.
[14]Junwei Miao, Junyang He, Yiping Lu, Tribological behavior of an AlCoCrFeNi2.1 eutectic high entropy alloy sliding against different counterfaces.Tribol. Int., 2021, 153: 106599.
[15]Wenting Jiang, Song Ni, Junyang He, Achieving excellent strength-ductility combination through the control of intricate substructures in an additively manufactured Co–Cr–Mo alloy.Mater. Sci. Eng. A, 2023, 886: 145687.
[16]Na Li, Junyang He, Strain rate effects on the mechanical responses in Mo-alloyed CoCrNi medium entropy alloys.Mater. Sci. Eng. A, 2022, 856: 143944.
[17]Junyang He, Yunsong Zhao, Min Song, Effects of minor Nb alloying on the thermal stability and mechanical responses of a γ/γ′ type high-entropy alloy with high Fe content.Mater. Sci. Eng. A, 2022, 851: 143610.
[18]Wentian Chen, Junyang He, On the dual-stage partial recrystallization and the corresponding mechanical response of the Cantor alloy.J. Alloys Compd., 2022, 918: 165651.
[19]Dongxu Qiao, Junyang He, Yiping Lu, The mechanical and oxidation properties of novel B2-ordered Ti2ZrHf0.5VNb0.5Alx refractory high-entropy alloys.Mater. Characterization, 2021, 178: 111287.
[20]Bin Liu, Junyang He, Microstructure and mechanical properties of ultra-hard spherical refractory high-entropy alloy powders fabricated by plasma spheroidization.Powder Technol., 2021, 382: 550-555.
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