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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
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
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
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
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., 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
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
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
