論文發表
[1] W. Wan, Y. Xu, X. Yu, F.P.E. Dunne, Microstructurally-sensitive fatigue crack nucleation in a Zircaloy-4 alloy, Journal of the Mechanics and Physics of Solids. 180 (2023) 105417.
[2] D.J. Long, W. Wan, F.P.E. Dunne, The influence of microstructure on short fatigue crack growth rates in Zircaloy-4: Crystal plasticity modelling and experiment, International Journal of Fatigue. 167 (2023) 107385.
[3] D.J. Long, Y. Liu, W. Wan, F.P.E. Dunne, A microstructure-sensitive analytical solution for short fatigue crack growth rate in metallic materials, International Journal of Mechanical Sciences. 253 (2023) 108365.
[4] Y. Liu, W. Wan*, F.P.E. Dunne, Characterisation and modelling of micro- and macroscale creep and strain rate sensitivity in Zircaloy-4, Materials Science & Engineering A. 840 (2022) 142981.(通訊作者)
[5] Y. Xu, W. Wan*, F.P.E. Dunne, Microstructural fracture mechanics: Stored energy density at fatigue cracks, Journal of the Mechanics and Physics of Solids. 146 (2021) 104209.(通訊作者)
[6] W. Wan, F.P.E. Dunne, Microstructure-interacting short crack growth in blocky alpha Zircaloy-4, International Journal of Plasticity. 130 (2020) 102711.
[7] D. Wilson, W. Wan, F.P.E. Dunne, Microstructurally-sensitive fatigue crack growth in HCP, BCC and FCC polycrystals, Journal of the Mechanics and Physics of Solids. 126 (2019) 204–225.
[8] D. Li1, W. Wan1, et al, Experimental and DFT characterization of interphase boundaries in titanium and the implications for ω-assisted α phase precipitation, Acta Materialia. 151 (2018) 406–415.(共同第一作者)
[9] W. Wan, D. Yi, H. Liu, Y. Jiang, R. Yi, Q. Yang, D. Wang, Q. Gao, Y. Xu, Observation and characterization of isothermal α″ in a new β-type titanium alloy, Philosophical Magazine Letters. 96 (2016) 90–96.
[10] W. Wan, H. Liu, Y. Jiang, D. Yi, R. Yi, Q. Gao, D. Wang, Q. Yang, Microstructure characterization and property tailoring of a biomedical Ti-19Nb-1.5Mo-4Zr-8Sn alloy, Materials Science & Engineering A. 637 (2015) 130–138.
