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The Optimum Reinforcement Layer Number for Soil under the Ring Footing Subjected to Inclined Load

Hussein Ameer, A’amal A. H. Al-Saidi

2022Journal of Engineering12 citationsDOIOpen Access PDF

Abstract

The primary components of successful engineering projects are time, cost, and quality. The use of the ring footing ensures the presence of these elements. This investigation aims to find the optimum number of geogrid reinforcement layers under ring footing subjected to inclined loading. For this purpose, experimental models were used. The parameters were studied to find the optimum geogrid layers number, including the optimum geogrid layers spacing and the optimum geogrid layers number. The optimum geogrid layers spacing value is 0.5B. And as the load inclination angle increased, the tilting and the tilting improvement percent for the load inclination angles (5°,10°,15°) are (40%,28%, and 5%) respectively. The reduction percent of the lateral displacement for the spacing ratio (0.5B,0.75B,1B,1.25B) are (16%,10%,8%,7%), respectively. The optimum geogrid layers number is found to be 4. As the load inclination angle increased, the tilting and the tilting improvement percent for the load inclination angles (5°,10°,15°) are (45%,33%, and 8%), respectively. The reduction percent of the lateral displacement for the reinforcement layers number (1,2,3,4) are (12%,16%,18%,20%), respectively

Topics & Concepts

GeogridReinforcementMaterials scienceGeotechnical engineeringDisplacement (psychology)Inclination angleStructural engineeringComposite materialEngineeringPsychotherapistPsychologyGeotechnical Engineering and Soil StabilizationGeotechnical Engineering and Underground StructuresGeotechnical Engineering and Analysis
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