ETABS (Extended 3D Analysis of Building Systems) is a powerful software used for structural analysis and design of buildings. It specializes in modeling, analyzing, and designing high-rise and complex structures with ease and precision. ETABS offers advanced tools for load calculations, seismic analysis, and dynamic performance evaluation. Its user-friendly interface and built-in design codes make it a go-to choice for civil and structural engineers. Widely adopted across the industry, ETABS ensures accurate, code-compliant, and efficient structural solutions.
Field Scope & Importance
- Easily model high-rise and complex buildings with intuitive tools.
- Analyze dead, live, wind, seismic, and other load combinations precisely.
- Supports global design codes for steel, concrete, and composite structures.
- Perform seismic, modal, and time history analysis with high accuracy.
- Generate detailed reports and visual outputs for better interpretation.
- Integrates smoothly with BIM platforms like Revit and AutoCAD.
Working Steps for ETABS
Model Creation
Define grids, levels, and structural elements like beams, columns, and slabs using intuitive tools.
Load Application
Apply dead, live, wind, and seismic loads to simulate real-world structural behavior.
Analysis & Design
Run structural analysis and design checks as per building codes to ensure safety and performance.
Result Interpretation
Review deflections, stresses, and reinforcement details through graphical and tabular outputs.
Curriculum
- The Project
- Begin a New Model Define an Auto Select Selection List
- Add Line Objects, Set Up to Add Object to Multiple Stories
- Add Area Objects
- Define Static Load Cases
- Assign Gravity Loads
- Define a Developed Elevation
- Assign Wind Loads
- Review Database Displays of Input Data
- Run the Analysis
- Graphically Review the Analysis Results
- Designs the Composite Beams
- Design the Steel Frame
Core functions of the ETABS
Modeling Flexibility
Create complex structural models using intuitive drawing tools and grid systems.
Structural Analysis
Perform accurate linear and nonlinear analysis for seismic, wind, and load conditions.
Design Automation
Automate design for steel, concrete, and composite structures as per global codes.
Dynamic Analysis
nalyze modal, response spectrum, and time history for dynamic structural behavior.
Result Visualization
Visualize stress, displacement, and force distribution through interactive reports and graphs.
Integration & Export
Seamlessly integrate with BIM tools and export design data for further use.
