Course Code Date Venue
CON 026 19-01-2025 - 23-01-2025 Houston, USA Register - 5,750.00 $
CON 026 23-02-2025 - 27-02-2025 KUALALUMPUR, MALAYSIA Register - 4,700.00 $
CON 026 10-03-2025 - 14-03-2025 Dubai,UAE Register - 4,500.00 $
CON 026 14-04-2025 - 18-04-2025 Dubai,UAE Register - 4,500.00 $
CON 026 04-05-2025 - 08-05-2025 MUSCAT, OMAN Register - 4,700.00 $
CON 026 01-06-2025 - 05-06-2025 CAIRO, EGYPT Register - 4,500.00 $
CON 026 27-07-2025 - 31-07-2025 SINGAPORE Register - 4,700.00 $
CON 026 18-08-2025 - 22-08-2025 SINGAPORE Register - 4,700.00 $
CON 026 15-09-2025 - 19-09-2025 Abu Dhabi, UAE Register - 4,700.00 $
CON 026 26-10-2025 - 30-10-2025 Bandar Seri Begawan, Brunei Darussalam Register - 4,700.00 $
CON 026 16-11-2025 - 20-11-2025 SINGAPORE Register - 4,700.00 $
CON 026 13-12-2025 - 17-12-2025 KUALALUMPUR, MALAYSIA Register - 4,700.00 $

Analysis Using STAAD.Pro

5-day course on steel structure analysis using STAAD.Pro:


Day 1: Introduction to STAAD.Pro and Basic Modeling

  • Overview of structural analysis and design principles 
  • Introduction to the STAAD.Pro interface and workspace 
  • Creating a new project and setting up units 
  • Importing geometry and defining structural elements 
  • Assigning materials and section properties for steel structures 
  • Defining supports and constraints 
  • Introduction to load types, including gravity loads 
  • Basic modeling of steel structures in STAAD.Pro


Day 2: Gravity Load Analysis and Steel Design

  • Assigning and reviewing gravity loads for steel structures 
  • Running gravity load analysis 
  • Reviewing analysis results 
  • Introduction to steel design codes and standards 
  • Performing steel design checks in STAAD.Pro 
  •  Iterative design and analysis processes 
  • Optimizing steel elements based on analysis results


Day 3: Lateral Load Analysis (Wind Load)

  • Introduction to lateral load analysis 
  • Assigning wind loads and load combinations 
  • Running wind load analysis 
  • Reviewing wind load analysis results 
  • Designing concrete elements for lateral loads 
  • Optimizing the structure for wind resistance 
  • Practical examples and hands-on exercises


Day 4: Seismic Load Analysis

  • Overview of seismic load analysis principles 
  • Assigning seismic loads and load combinations 
  • Running seismic load analysis 
  • Reviewing seismic load analysis results 
  • Designing concrete elements for seismic loads
  • Detailing considerations for seismic-resistant structures 
  • Practical examples and hands-on exercises


Day 5: Project Work and Advanced Topics

  • Applying learned skills to a comprehensive project 
  • Troubleshooting common issues 
  • Q&A session 
  • Advanced analysis topics (nonlinear analysis, pushover analysis) 
  • Course review and summary 
  • Course evaluation and feedback


This course outline is designed to cover fundamental and advanced aspects of steel structure analysis using STAAD.Pro over a 5-day period. Adjustments can be made based on the specific needs, pace, and level of expertise of the participants. Practical examples and hands-on exercises should be integrated throughout the course to reinforce learning.