Xiaochen Wang

Xiaochen Wang

Higher Degree by Research Candidate

School of Electrical and Mechanical Engineering

Faculty of Sciences, Engineering and Technology


I received my Master's degree in the University of Adelaide with research in bio-mechanical engineering. With a passion and interests on vibration and dynamic, I am currently a PhD candidate and my research focus on the nonlinear analysis of aorta.

I received my Master's degree in the University of Adelaide with research in bio-mechanical engineering. With a passion and interests on vibration and dynamic, I am currently a PhD candidate and my research focus on the nonlinear analysis of aorta.

  • Journals

    Year Citation
    2023 Wang, X., Ghayesh, M. H., Kotousov, A., Zander, A. C., Dawson, J. A., & Psaltis, P. J. (2023). Fluid-structure interaction study for biomechanics and risk factors in Stanford type A aortic dissection.. Int J Numer Method Biomed Eng, 39(8), 25 pages.
    DOI Scopus5 WoS2 Europe PMC1
    2023 Wang, X., Carpenter, H. J., Ghayesh, M. H., Kotousov, A., Zander, A. C., Amabili, M., & Psaltis, P. J. (2023). A review on the biomechanical behaviour of the aorta. Journal of the Mechanical Behavior of Biomedical Materials, 144, 1-38.
    DOI Scopus3 Europe PMC1
    2023 Wang, X., Ghayesh, M. H., Kotousov, A., Zander, A. C., & Psaltis, P. J. (2023). Failure investigation and stresses in abdominal aortic aneurysms fluid-structure interaction biomechanics: Effect of nonlinear material properties and presence of intraluminal thrombus. Procedia Structural Integrity, 45, 88-95.
    DOI
    2023 Wang, X., Ghayesh, M. H., Kotousov, A., Zander, A. C., Amabili, M., Dawson, J. A., & Psaltis, P. J. (2023). Biomechanics of abdominal aortic aneurysm in the framework of Windkessel effect and fully-developed inflow velocity via two-way non-linear FSI. International Journal of Non-Linear Mechanics, 157, 12 pages.
    DOI Scopus2
  • Conference Papers

    Year Citation
    2022 Wang, X., Ghayesh, M. H., Kotousov, A., Zander, A. C., & Psaltis, P. J. (2022). Wall Shear Stress for an Aorta with Aneurysms Via Computational Fluid Dynamics. In Advances in Nonlinear Dynamics. NODYCON Conference Proceedings Series (pp. 27-37). Switzerland: Springer International Publishing.
    DOI
    2022 Wang, X., Ghayesh, M. H., Kotousov, A., Zander, A. C., & Psaltis, P. J. (2022). Dynamical influences of different aneurysm sizes on rupture risk of abdominal aorta. In Proceedings of the 1st International Conference on Mechanical System Dynamics (ICMSD 2022) Vol. 2022 (pp. 33-38). Hybrid Conference, Nanjing, China: Institution of Engineering and Technology.
    DOI Scopus1
  • Board Memberships

    Date Role Board name Institution name Country
    2022 - ongoing Board Member Student Matters Sub-Committee (SMS) The University of Adelaide Australia
    2022 - ongoing Board Member Research Education and Development Committee The University of Adelaide Australia

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