Subsurface Geological-Geotechnical 3D Modeling to Evaluate the Geohazard of the Alluvial Soils in Tanta Region, Egypt. GIS Approach
Masoud, A., Kamh, S., Elgharib, S. (2016). Subsurface Geological-Geotechnical 3D Modeling to Evaluate the Geohazard of the Alluvial Soils in Tanta Region, Egypt. GIS Approach. EKB Journal Management System, 37(2), 119-132. doi: 10.21608/djs.2016.139928
Alaa A. Masoud; Samir Z. Kamh; Sara R. Elgharib. "Subsurface Geological-Geotechnical 3D Modeling to Evaluate the Geohazard of the Alluvial Soils in Tanta Region, Egypt. GIS Approach". EKB Journal Management System, 37, 2, 2016, 119-132. doi: 10.21608/djs.2016.139928
Masoud, A., Kamh, S., Elgharib, S. (2016). 'Subsurface Geological-Geotechnical 3D Modeling to Evaluate the Geohazard of the Alluvial Soils in Tanta Region, Egypt. GIS Approach', EKB Journal Management System, 37(2), pp. 119-132. doi: 10.21608/djs.2016.139928
Masoud, A., Kamh, S., Elgharib, S. Subsurface Geological-Geotechnical 3D Modeling to Evaluate the Geohazard of the Alluvial Soils in Tanta Region, Egypt. GIS Approach. EKB Journal Management System, 2016; 37(2): 119-132. doi: 10.21608/djs.2016.139928

Subsurface Geological-Geotechnical 3D Modeling to Evaluate the Geohazard of the Alluvial Soils in Tanta Region, Egypt. GIS Approach

Delta Journal of Science
Article 3, Volume 37, Issue 2, December 2016, Page 119-132  XML PDF (5.75 MB)
Document Type: Research and Reference
DOI: 10.21608/djs.2016.139928
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Authors
Alaa A. Masoud; Samir Z. Kamh; Sara R. Elgharib
Geology Department, Faculty of Science, Tanta University, 31527 Tanta Egypt
Abstract
Geological and geotechnical information from 159 borehole in-situ- and lab-based measured plasticity, unconfined
compression, and consolidation parameters for alluvial clays have been analysed. For this analysis, 3D models was prepared using
VOXLER 3 software package. The prime objective was to spatially model the geotechnical variability and to derive the loading
factors along with recognition of the distinctive geotechnical patterns. Results have been presented for the alluvial soils of Tanta
region, Egypt with the principal geotechnical hazards in the main eight districts were identified. Plasticity charts indicated that the
soils are inorganic cohesive highly plastic clays. Geotechnical parameters showed wide ranges evidenced by their large standard
deviations. Al-Mahata and Quhafa areas are characterized by high plasticity soils. Quahafa and beneath Al-Galaa street areas
showed the largest unconfined compression strength. Largest over-consolidation ratio and compression index values were
recorded in Al-Mahata and Al-Emary areas, respectively. High natural water content areas match well with those where water
table is closer to the ground surface in Quhafa and Al-Emary areas. The results of the employed approach can help to establish
geohazard zonation 3D maps with construction favorability for safe urban expansions.
Keywords
Spatial variability; factor analysis; k-means clustering; Radial Basis Functions; sensitive clay shrinkage–swelling hazard; Tanta city; Egypt
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