武汉英才优秀青年人才项目, 10万元,主持。
部分学术论文:
[1] Wang, S.*, Shui, F., Stratford, T., Su, J., & Li, B. (2024). Modelling nonlinear shear creep behaviour of a structural adhesive using deep neural networks (DNN). Construction and Building Materials, 414, 135083.
[2] Wang, S.*, Stratford, T., Li, Y., & Li, B. (2024). Data-driven estimates of the strength and failure modes of CFRP-steel bonded joints by implementing the CTGAN method. Engineering Fracture Mechanics, 109962.
[3] Songbo Wang*; Haixin Yang; Tim Stratford; Jiayi He; Biao Li; Jun Su ; Evaluating the effect of curing conditions on the glass transition of the structural adhesive using conditional tabular generative adversarial networks, Engineering Applications of Artificial Intelligence, 2023,130(2023): 107796
[4] Songbo Wang*; Ziyang Xu; Tim Stratford; Biao Li; Qingdian Zeng; Jun Su ; Machine learning approach for analysing and predicting the modulus response of the structural epoxy adhesive at elevated temperatures, The Journal of Adhesion, 2023
[5] Songbo Wang*; Tim Stratford; Thomas Reynolds ; Viscoelastic model for analysing the behaviour of adhesive-bonded FRP-to-steel joints in civil engineering applications, International Journal of Adhesion and Adhesives, 2023, 123(2023): 103359
[6] S. Wang*; T. Stratford; T.P.S. Reynolds ; A comparison of the influence of nonlinear and linear creep on the behaviour of FRP-bonded metallic beams at warm temperatures, Composite Structures, 2021, 281(2022): 115117
[7] S. Wang*; T. Stratford; T.P.S. Reynolds ; Creep of an FRP-strengthened metallic beam under cyclic temperature and cyclic load, Journal of Constructional Steel Research, 2022, 196(2022): 107417
[8] S. Wang*; T. Stratford; T.P.S. Reynolds ; Linear creep of bonded FRP-strengthened metallic structures at warm service temperatures, Construction and Building Materials, 2021, 283(2021): 122699
***研究生招生***
招收专业:土木工程(学术型)、土木水利(专业型)
招收人数:每年3~5名硕士研究生
