Yong Huang, MSc

Function: Doctoral candidate
Room: 304
Phone: +43(0)3842-804-304
E-Mail: yong.huang(at)oeaw.ac.at
Group: Zhang

Projects

Publications

  • Oxygen and strain co-driven cubic phase in Ti and its mechanical response. / Qu, Qiulin; Huang, Yong; Chen, Zhuo et al.
    in: Acta Materialia, Jahrgang 299, 121442, 15.10.2025.
  • Highly nanotwinned transition metal nitride film enabled by negative stacking fault energy. / Huang, Yong; Chen, Zhuo; Meindlhumer, Michael et al.
    in: Acta Materialia, Jahrgang 299, 121475, 15.10.2025.
  • Harvesting superior intrinsic plasticity in nitride ceramics with negative stacking fault energy. / Huang, Yong; Chen, Zhuo; Meindlhumer, Michael et al.
    in: Acta Materialia, Jahrgang 286, 120774, 01.03.2025.
  • Direct observation of Schottky-vacancy clusters and their mechanical response in MoN/TiN superlattice. / Chen, Zhuo; Huang, Yong; Gao, Zecui et al.
    in: Acta Materialia, Jahrgang 283, Nr. 120551, 2025.
  • Equiaxed microstructure design enables strength-ductility synergy in the eutectic high-entropy alloy. / Zhang, Z; Huang, Y; Xu, Q et al.
    in: Journal of Materials Research and Technology, Jahrgang 33, 15.11.2024, S. 103-114.
  • Largemechanical properties enhancement in ceramics through vacancy-mediated unit cell disturbance. / Chen, Z; Huang, Y; Koutna, N et al.
    in: Nature Communications, Jahrgang 2023, 16.12.2023, S. 14:8387.
  • High density of stacking faults strengthened TaN/TiN multilayer. / Huang, Y; Chen, Z; Wagner, A et al.
    in: Acta Materialia, Jahrgang 255, 15.08.2023, S. ARTN 119027.
  • Atomic-scale understanding of the structural evolution of TiN/AlN superlattice during nanoindentation - Part 1: Deformation. / Chen, Z; Zheng, Y; Huang, Y et al.
    in: Acta Materialia, Jahrgang 234, 01.08.2022, S. ARTN 118008.
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