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Varnosfaderani, M. A., Wu, N., & Maghoul, P. (2024). Experimental investigations of the effects of bending vibrations resonance modes on penetration into granular materials. Smart Materials and Structures, 33(6), 065019 (19 pages). Disponible
Cui, S., Wu, N., & Maghoul, P. (2023). Fatigue crack localisation based on empirical mode decomposition and pre-selected entropy. Nondestructive Testing and Evaluation, 28 pages. Lien externe
Alaei Varnosfaderani, M., Maghoul, P., & Wu, N. (2022). Modelling the penetration of subsonic rigid projectile probes into granular materials using the cavity expansion theory. Computers and Geotechnics, 141, 104546 (15 pages). Lien externe
Cui, S., Maghoul, P., Liang, X., Wu, N., & Wang, Q. (2022). Structural fatigue crack localisation based on spatially distributed entropy and wavelet transform. Engineering Structures, 266, 114544 (11 pages). Lien externe
Cui, S., Maghoul, P., & Wu, N. (mai 2022). Structural Fatigue Crack Localization Based on EMD and Sample Entropy [Communication écrite]. Canadian Society of Civil Engineering Annual Conference (CSCE 2022), Whistler, British Columbia, CA Cham. Lien externe
Varnosfaderani, M. A., Maghoul, P., & Wu, N. (avril 2022). Penetration Analysis of High-Frequency Vibro-Based Probes in Granular Media Using the Discrete Element Method [Communication écrite]. 18th Biennial International Conference on Engineering, Science, Construction, and Operations in Challenging Environments (Earth and Space 2022), Denver, CO, USA. Lien externe
Cui, S., Wu, N., Maghoul, P., Liang, X., & Wang, Q. (juillet 2021). Fatigue crack localization based on spatial distributed entropy and wavelet transform [Communication écrite]. 8th International Conference on Vibration Engineering (ICVE 2021), Shanghai, China. Non disponible
Alaei Varnosfaderani, M., Maghoul, P., & Wu, N. (juin 2021). Modeling penetration of self burrowing impactor probes into granular regolith using the cavity expansion theory [Communication écrite]. Biot-Bažant Conference on Engineering Mechanics and Physics of Porous Materials and Structures, Chicago, Illinois. Lien externe
Alaei Varnosfaderani, M., Maghoul, P., & Wu, N. (juin 2021). Recent portable probe technologies and developments for lunar and Mars subsurface exploration [Communication écrite]. Canadian Lunar Workshop (Canadian Space Agency). Lien externe
