Implementation of Buried Structure to Withstand Ground Shock from Subsurface Explosion
Mohamed, L., Farag, H., Fayed, M., Tarkhan, A. (2006). Implementation of Buried Structure to Withstand Ground Shock from Subsurface Explosion. EKB Journal Management System, 6(6th International Conference on Civil and Architecture Engineering), 22-35. doi: 10.21608/iccae.2006.45767
Louay, S. Mohamed; Hassan, M. Farag; Mohamed, N. Fayed; Abou Zied, M. Tarkhan. "Implementation of Buried Structure to Withstand Ground Shock from Subsurface Explosion". EKB Journal Management System, 6, 6th International Conference on Civil and Architecture Engineering, 2006, 22-35. doi: 10.21608/iccae.2006.45767
Mohamed, L., Farag, H., Fayed, M., Tarkhan, A. (2006). 'Implementation of Buried Structure to Withstand Ground Shock from Subsurface Explosion', EKB Journal Management System, 6(6th International Conference on Civil and Architecture Engineering), pp. 22-35. doi: 10.21608/iccae.2006.45767
Mohamed, L., Farag, H., Fayed, M., Tarkhan, A. Implementation of Buried Structure to Withstand Ground Shock from Subsurface Explosion. EKB Journal Management System, 2006; 6(6th International Conference on Civil and Architecture Engineering): 22-35. doi: 10.21608/iccae.2006.45767

Implementation of Buried Structure to Withstand Ground Shock from Subsurface Explosion

The International Conference on Civil and Architecture Engineering
Article 21, Volume 6, 6th International Conference on Civil and Architecture Engineering, May 2006, Page 22-35  XML PDF (370.58 K)
Document Type: Original Article
DOI: 10.21608/iccae.2006.45767
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Authors
Louay, S. Mohamed1; Hassan, M. Farag2; Mohamed, N. Fayed3; Abou Zied, M. Tarkhan4
1Ph.D, Candidate, Syria.
2Ph.D, Egyptian Armed Forces.
3Professor , Ain Shams University, Egypt.
4Ass. Professor , Helwan University, Egypt.
Abstract
The present study aims at establishing a fully coupled 3D numerical approach for analyzing
the response of buried structure subjected to subsurface blast loading. In this approach, the
explosion source, the propagation of stress wave in the soil and the interaction between soil
and the structure are integrated into a single model. The validity of proposal model was
established by comparison of the obtained numerical results with the available field test. The
model is then used to study the effect of medium on buried structure response. Increasing the
structural resistance efficiency to withstand ground shock from subsurface explosion was
achieved by introducing ground shock attenuation sand layer in the front of wall facing the
explosion source. The finite element hydrocode ‘AUTODYN’ was employed.
Keywords
Buried Structure; Subsurface explosion; Ground Shock; Numerical simulation
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