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Abd El Raouf, M. (2019). COMPACTION–INDUCED STRESS IN GEOSYNTHETIC REINFORCED SOIL WALLS. JES. Journal of Engineering Sciences, 47(No 4), 451-460. doi: 10.21608/jesaun.2019.109854
Moamen E. Abd El Raouf. "COMPACTION–INDUCED STRESS IN GEOSYNTHETIC REINFORCED SOIL WALLS". JES. Journal of Engineering Sciences, 47, No 4, 2019, 451-460. doi: 10.21608/jesaun.2019.109854
Abd El Raouf, M. (2019). 'COMPACTION–INDUCED STRESS IN GEOSYNTHETIC REINFORCED SOIL WALLS', JES. Journal of Engineering Sciences, 47(No 4), pp. 451-460. doi: 10.21608/jesaun.2019.109854
Abd El Raouf, M. COMPACTION–INDUCED STRESS IN GEOSYNTHETIC REINFORCED SOIL WALLS. JES. Journal of Engineering Sciences, 2019; 47(No 4): 451-460. doi: 10.21608/jesaun.2019.109854

COMPACTION–INDUCED STRESS IN GEOSYNTHETIC REINFORCED SOIL WALLS

Article 1, Volume 47, No 4, July and August 2019, Page 451-460  XML PDF (695.59 K)
Document Type: Research Paper
DOI: 10.21608/jesaun.2019.109854
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Author
Moamen E. Abd El Raouf*
Civil Engineering Department, Faculty of Engineering, Al- Azhar University, Egypt
Abstract
Compaction equipment worked behind the retaining walls causes additional lateral earth pressures acting on the wall. The effect of compaction-induced stress (CIS) usually neglected when designing the retaining walls. Geosynthetic-Reinforced Soil walls (GRS walls) have increasing popularity in Egypt in the last years. The earth pressure at the facing of a Geosynthetic Reinforced Soil wall (GRS wall) is different from that in the natural soil. The internal lateral pressure in the GRS soil is governed by compaction-induced stresses (CIS) and additional confining effects that the reinforcement provides to the soil. The compaction-induced stress for GRS wall is difficult to be predicted during the design stage because it depends on the characteristics of compaction equipment and other factors. The objectives of the research are:1) Studying the effect of compact the backfill of GRS wall by vibratory plates on the internal stability, the external stability, and the foundation soil for GRS wall. 2) Evaluating the performance of the various types of vibratory plates which used to compact the backfill for GRS wall. So, a finite element analysis using GEO5 program was used to achieve these objectives. Finally, the recommendations for the design and construction of GRS walls were highlighted.
Keywords
Geosynthetic-Reinforced Soil; compaction-induced stresses; Vibratory plates; and compaction
Main Subjects
Civil Engineering: structural, Geotechnical, reinforced concrete and steel structures, Surveying, Road and traffic engineering, water resources, Irrigation structures, Environmental and sanitary engineering, Hydraulic, Railway, construction Management.
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