Tingyuan Yin
School of Architecture and Civil Engineering
Faculty of Sciences, Engineering and Technology
Eligible to supervise Masters and PhD (as Co-Supervisor) - email supervisor to discuss availability.
Nondestructive Testing & Structural Health Monitoring Techniques to different engineering areas
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Appointments
Date Position Institution name 2022 - ongoing Postdoc The University of Adelaide -
Language Competencies
Language Competency Chinese (Mandarin) Can read, write, speak, understand spoken and peer review English Can read, write, speak, understand spoken and peer review -
Education
Date Institution name Country Title The University of Adelaide Australia PhD -
Research Interests
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Journals
Year Citation 2023 Yin, T., Ng, C. T., Vidler, J., Ho, V. D., & Kotousov, A. (2023). Amplitude-Modulation Vibro-Acoustic Technique for Damage Evaluation. Structural Health Monitoring, 22(2), 1399-1420.
Scopus4 WoS42023 Yin, T., Ng, C. T., Chen, L., & Kotousov, A. (2023). In-situ nonlinear ultrasonic technique for monitoring damage in ultra-high performance fibre reinforced concrete (UHPFRC) during direct tensile test. Measurement: Journal of the International Measurement Confederation, 222, 12 pages.
Scopus12023 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.
Scopus12022 Ng, C. -T., Yeung, C., Yin, T., & Chen, L. (2022). Stress evaluation of tubular structures using torsional guided wave mixing. Smart Structures and Systems, 30(6), 639-648.
Scopus12022 Hu, X., Yin, T., Zhu, H., Ng, C. T., & Kotousov, A. (2022). Structural health monitoring of partially immersed metallic plates using nonlinear guided wave mixing. Construction and Building Materials, 346, 1-13.
Scopus6 WoS12022 Ng, C. T., Yeung, C., Yin, T., He, Y., & Chen, L. (2022). Investigation of nonlinear torsional guided wave mixing in pipes buried in soil. Engineering Structures, 273, 9 pages.
Scopus22021 Yin, T., Ng, C. T., & Kotousov, A. (2021). Damage detection of ultra-high-performance fibre-reinforced concrete using a harmonic wave modulation technique. Construction and Building Materials, 313, 125306-1-125306-13.
Scopus10 WoS62018 Chen, J., Huang, C., Yang, C., Yin, T., & Guo, Q. (2018). Non-linear ultrasonic investigation of interface debonding of steel-concrete composites. Insight: Non-Destructive Testing and Condition Monitoring, 60(3), 155-160.
Scopus4 WoS42018 Chen, J., Wu, Y., Yin, T., Talebzadeh, N., & Guo, Q. (2018). Characterization of concentrated and distributed cracks in concrete using a harmonic wave modulation technique. Materials and Structures/Materiaux et Constructions, 51(1), 10 pages.
Scopus7 WoS82017 Chen, J., Yin, T., Kim, J. Y., Xu, Z., & Yao, Y. (2017). Characterization of thermal damage in sandstone using the second harmonic generation of standing waves. International Journal of Rock Mechanics and Mining Sciences, 91, 81-89.
Scopus30 WoS222017 Chen, J., Bharata, R., Yin, T., Wang, Q., Wang, H., & Zhang, T. (2017). Assessment of sulfate attack and freeze–thaw cycle damage of cement-based materials by a nonlinear acoustic technique. Materials and Structures/Materiaux et Constructions, 50(2), 10 pages.
Scopus19 WoS142016 Chen, J., Ren, J., & Yin, T. (2016). Nondestructive evaluation of notched cracks in mortars by nonlinear ultrasonic technique. Nondestructive Testing and Evaluation, 31(2), 109-121.
Scopus16 WoS12 -
Conference Papers
Year Citation 2023 Yin, T., Ng, C. T., & Kotousov, A. (2023). Higher-order effects of amplitude-modulation vibro-acoustic technique for characterization thermal damages in cement-based material. In Materials Research Proceedings Vol. 27 (pp. 259-264). Online: Association of American Publishers.
2017 Yin, T., Meng, W., Talebzadeh, N., & Chen, J. (2017). Experimental characterization of sulfate damage of concrete based on the harmonic wave modulation technique. In AIP Conference Proceedings Vol. 1806 (pp. 6 pages). Melville, NY, USA: AIP Publishing.
Scopus2 WoS2
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Current Higher Degree by Research Supervision (University of Adelaide)
Date Role Research Topic Program Degree Type Student Load Student Name 2024 Co-Supervisor Alternative reinforcing methods to reduce the structural components for larger spacing and structural health monitoring for them with AI Doctor of Philosophy Doctorate Full Time Mr Longxin Zheng 2024 Co-Supervisor The Improvement of Self-Healing Capacity of Fibre-reinforced Concrete Incorporating Fibre Surface Modification: An Experimental Study Doctor of Philosophy Doctorate Full Time Mr Han Wu
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