OPTIMUM DESIGN OF REINFORCED CONCRETE RAFT FOUNDATIONS USING FINITE ELEMENT ANALYSIS
📄 Project Abstract
This work presents the finite element analysis (FEA) of the requirements of compression reinforcements in raft foundations using ABAQUS. The model helps to confirm and provide a valuable supplement to the theoretical design. For validation, a reinforced concrete raft foundationis modeled whichis conventionally designed according to Eurocode 2 (EN 1992-1-1:2004). The result indicates that there is differential settlement within the raft foundation based on the settlement and stress patterns obtained from the finite element model (FEM). This is followed by the addition of compression reinforcement, from 0.1% to 0.9% of the cross sectional area of the raft slab, until uniform settlement is obtained. The results suggest that a suitable percentage of the concrete cross sectional area of raft slab foundations should be used as compression reinforcement, when designing conventionally using Eurocode 2, in order to prevent differential settlements. The required area of compression reinforcement...
🔍 Key Research Areas Covered
- ✅ Literature Review & Theoretical Framework
- ✅ Research Methodology & Data Collection
- ✅ Data Analysis & Statistical Methods
- ✅ Findings & Results Discussion
- ✅ Recommendations & Conclusions
- ✅ References & Bibliography
📚 Complete Project Structure
- Problem Statement & Objectives
- Theoretical Framework & Related Studies
- Data Collection & Analysis Methods
- Findings & Statistical Analysis
- Recommendations & Future Research
- Questionnaires, Data, References
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APA/MLA formatting with table of contents
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OPTIMUM DESIGN OF REINFORCED CONCRETE RAFT FOUNDATIONS USING FINITE ELEMENT ANALYSIS
Full Citation:
Mahmud AbdulkadirGARBA. (). OPTIMUM DESIGN OF REINFORCED CONCRETE RAFT FOUNDATIONS USING FINITE ELEMENT ANALYSIS. African and General Studies, 40, 14858.
Citation Formats:
APA
Mahmud AbdulkadirGARBA. (). OPTIMUM DESIGN OF REINFORCED CONCRETE RAFT FOUNDATIONS USING FINITE ELEMENT ANALYSIS. African and General Studies, 40, 14858.
MLA
Mahmud AbdulkadirGARBA. "OPTIMUM DESIGN OF REINFORCED CONCRETE RAFT FOUNDATIONS USING FINITE ELEMENT ANALYSIS." African and General Studies, vol. 40, , pp. 14858.
Chicago
Mahmud AbdulkadirGARBA. "OPTIMUM DESIGN OF REINFORCED CONCRETE RAFT FOUNDATIONS USING FINITE ELEMENT ANALYSIS." African and General Studies 40 (): 14858.
Full Citation:
Mahmud AbdulkadirGARBA. (). OPTIMUM DESIGN OF REINFORCED CONCRETE RAFT FOUNDATIONS USING FINITE ELEMENT ANALYSIS. African and General Studies, 40, 14858.
Citation Formats:
APA
Mahmud AbdulkadirGARBA. (). OPTIMUM DESIGN OF REINFORCED CONCRETE RAFT FOUNDATIONS USING FINITE ELEMENT ANALYSIS. African and General Studies, 40, 14858.
MLA
Mahmud AbdulkadirGARBA. "OPTIMUM DESIGN OF REINFORCED CONCRETE RAFT FOUNDATIONS USING FINITE ELEMENT ANALYSIS." African and General Studies, vol. 40, , pp. 14858.
Chicago
Mahmud AbdulkadirGARBA. "OPTIMUM DESIGN OF REINFORCED CONCRETE RAFT FOUNDATIONS USING FINITE ELEMENT ANALYSIS." African and General Studies 40 (): 14858.
Document Details
| Author | Mahmud AbdulkadirGARBA |
|---|---|
| 📁 Field | Civil Engineering Project Topics |
| 🏷️ Type | Engineering Project Topics |
| Pages | 84 Pages |
| Words | 12914 words |
| 📘 Chapters | 1 to 5 Chapters |