Researcher Profiles

Dr James Vidler

ARC Grant-Funded Researcher (A)

School of Electrical and Mechanical Engineering

Faculty of Sciences, Engineering and Technology

Career
Publications
Contact

Appointments

Date Position Institution name

2024 - 2027 ARC Grant-Funded Researcher (B) University of Adelaide

2022 - 2024 ARC Grant-Funded Reseacher (A) University of Adelaide
Education

Date Institution name Country Title

2018 - 2022 University of Adelaide Australia PhD

Journals

Year	Citation
2025	Vidler, J., Kotousov, A., & Ng, C. T. (2025). Compliance changes for a fatigue edge crack. European Journal of Mechanics, A/Solids, 111, 105592. DOI
2025	Forbes, M., Robertson, W. S. P., Zander, A. C., Vidler, J., & Paulides, J. J. H. (2025). A generalised Maxwell Stress Tensor for semi-analytic force and torque between permanent magnets, coils, and soft iron. Applied Mathematical Modelling, 144, 116050. DOI
2024	Vidler, J., Kotousov, A., & Ng, C. -T. (2024). Residual closure of fatigue cracks. International Journal of Solids and Structures, 302, 112973-1-112973-11. DOI Scopus2
2023	Vidler, J., Kotousov, A., & Ng, C. -T. (2023). Maxwell homogenisation methodology for evaluation of effective elastic constants of weakly-nonlinear particulate composites. Applied Mathematical Modelling, 126, 698-712. DOI
2023	Yin, T., Ng, C. T., Vidler, J., Ho, V. D., & Kotousov, A. (2023). Characterization of thermal damage in graphene mortar materials using High-order sideband generation of Amplitude-modulation Vibro-acoustic technique. Mechanical Systems and Signal Processing, 193, 23 pages. DOI Scopus7
2023	Vidler, J., Kotousov, A., & Ng, C. T. (2023). Analysis of crack closure and wake of plasticity with the distributed dislocation technique. Theoretical and Applied Fracture Mechanics, 127, 104034-1-104034-10. DOI Scopus5
2022	Vidler, J., Kotousov, A., & Ng, C. T. (2022). Effective elastic properties of a weakly nonlinear particulate composite. International Journal of Non-Linear Mechanics, 141, 103949-1-103949-13. DOI Scopus3 WoS2
2022	Yin, T., Ng, C. T., Vidler, J., Ho, V. D., & Kotousov, A. (2022). Amplitude-Modulation Vibro-Acoustic Technique for Damage Evaluation. Structural Health Monitoring, 22(2), 1399-1420. DOI Scopus7 WoS4
2022	Vidler, J., Kotousov, A., Hughes, J. M., Paradowska, A., Reid, M., & Ng, C. T. (2022). Feasibility of early fatigue damage evaluation using the Neutron diffraction method. Engineering Failure Analysis, 141, 106603-1-106603-11. DOI Scopus6 WoS1
2021	Hughes, J. M., Mohabuth, M., Khanna, A., Vidler, J., Kotousov, A., & Ng, C. T. (2021). Damage detection with the fundamental mode of edge waves. Structural Health Monitoring, 20(1), 74-83. DOI Scopus15 WoS11
2021	Vidler, J., Kotousov, A., & Ng, C. T. (2021). Effect of randomly distributed voids on effective linear and nonlinear elastic properties of isotropic materials. International Journal of Solids and Structures, 216, 83-93. DOI Scopus8 WoS5
2019	Hughes, J. M., Vidler, J., Ng, C., Khanna, A., Mohabuth, M., Rose, L. R. F., & Kotooussov, A. (2019). Comparative evaluation of in situ stress monitoring with Rayleigh waves. Structural Health Monitoring, 18(1), 205-215. DOI Scopus26 WoS19
2019	Mohabuth, M., Khanna, A., Hughes, J., Vidler, J., Kotousov, A., & Ng, C. T. (2019). On the determination of the third-order elastic constants of homogeneous isotropic materials utilising Rayleigh waves. Ultrasonics, 96, 96-103. DOI Scopus20 WoS15

Conference Papers

Year	Citation
2023	Vidler, J., Kotousov, A., & Ng, C. T. (2023). Residual opening of fatigue cracks due to the wake of plasticity. In Procedia Structural Integrity Vol. 45 (pp. 82-87). Adelaide, Australia: Elsevier BV. DOI Scopus3
2020	Vidler, J., Kotousov, A., & Ng, C. T. (2020). Development of Micro-mechanical Models of Fatigue Damage. In Proceedings of the International Conference on Theoretical, Applied, Computational and Experimental Mechanics Vol. 16 (pp. 145-150). Switzerland: Springer. DOI Scopus2
2019	Kotooussov, A., Vidler, J., Hughes, J., Khanna, A., Ng, C., & Mohabuth, M. (2019). Mechanics and evaluation of early damage. In J. A. F. O. Correia, A. M. P. De Jesus, A. A. Fernandes, & R. Calcada (Eds.), Mechanical fatigue of metals: experimental and simulation perspectives Vol. 7 (pp. 359-365). Cham, Switzerland: Springer. DOI Scopus2 WoS2
2018	Hughes, J., Vidler, J., Khanna, A., Mohabuth, M., Kotooussov, A., & Ng, C. (2018). Measurement of residual stresses in rails using Rayleigh waves. In A. Dyskin, & E. Pasternak (Eds.), Advances in mechanics: failure, deformation, fatigue, waves and monitoring: Proceedings of The 11th International Conference on Structural Integrity and Failure (pp. 160-164). Perth, WA: Australian Fracture Group.
2017	Hughes, J. M., Howie, J., Vidler, J., & Mohabuth, M. (2017). Stress monitoring using the change in velocity of Rayleigh waves. In Proceedings of the 9th Australasian Congress on Applied Mechanics (ACAM 9) Vol. 2017-November (pp. 371-378). Sydney: Engineers Australia.
2017	Hughes, J. M., Howie, J., Vidler, J., & Mohabuth, M. (2017). Non-contact measurement of nonlinear Rayleigh waves using the scanning laser vibrometer. In Proceedings of the 9th Australasian Congress on Applied Mechanics (ACAM 9) Vol. 2017-November (pp. 358-363). Sydney: Engineers Australia. Scopus1

Position: ARC Grant-Funded Researcher (A)
Phone: 83134577
Email: james.vidler@adelaide.edu.au
Campus: North Terrace
Building: Engineering South, floor Third Floor
Org Unit: Mechanical Engineering

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