ETABS Training Course

Course Overview

• Next Batch:New batches start every 7th Day. Limited seats available – enroll early!
• Course Duration:1–2 Months (including hands-on labs and real-world assignment work).
• Eligibility: learners Civil Engineers Structural Engineers Architects Design Professionals.
• Structural Engineers.
• Design Professionals.

ETABS Training Course

• Learn the fundamentals of ETABS software for structural modeling and analysis.
• Understand load calculation, load combinations, and building design principles.
• Perform analysis of beams, columns, slabs, and shear walls.
• Design RCC and steel structures as per IS codes and standards.
• Integrate ETABS with SAFE and AutoCAD for complete design workflow.
• Work on real building projects to gain professional structural design experience.

Overview of ETABS Training Course

The ETABS Training Course is designed for civil and structural engineers who want to specialize in structural design and analysis. It focuses on creating accurate building models, performing complex analysis, and ensuring structural stability, providing you with the specialized technical expertise needed to advance your career.

This course blends theoretical knowledge with hands-on practice on real projects. By mastering ETABS tools and design methods, you'll be able to design safe, economical, and code-compliant building structures efficiently.

1.Introduction to ETABS and Structural Basics

• Overview of ETABS Interface.
• Real-world assignment Setup and File Management.
• Structural Analysis Fundamentals.
• Creating Grids and Levels.
• Defining Materials and Cross Sections.
• Modeling Structural Elements (Beams, Columns, Slabs).

3. Load Application and Analysis

• Applying Dead, Live, Wind, and Earthquake Loads.
• Load Combinations and Load Patterns.
• Running Structural Analysis.

4. Design and Detailing

• Steel Structure Design.
• Detailing and Interpretation of Results.

5. Advanced Tools & Reports

• Modal and Pushover Analysis.
• Time History and Response Spectrum Analysis.
• Generating Design Reports and Drawings.
• Hands-on training with real-life structural projects.
• Emphasis on earthquake-resistant and high-rise building design.
• Integration with other structural and CAD tools.
• Hands-on experience in structural modeling and result interpretation.
• Seismic Design Engineer.
• Practice on actual case studies from industry.
• Detailed training on code-based design techniques.
• Guidance from structural engineers working on high-rise and infrastructure projects.
• Learn ETABS from basic to expert level with credential preparation.