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Preview of Bridge Design
Module 1: Introduction to Bridge Design Basics of Bridge Engineering Types of Bridges and their Applications Key Design Standards and Codes (IRC, AASHTO, etc.)
Module 2: Overview of STAAD Pro Introduction to STAAD Pro Interface Overview of Structural Analysis and Design Capabilities Importing and Exporting Data in STAAD Pro
Class 2. Bridge Design
Module 3: Modeling Bridges in STAAD Pro Step-by-Step Guide to Bridge Modeling Defining Geometry, Supports, and Loads Material Specifications and Cross-Section Properties
Module 4: Structural Analysis of Bridges Analyzing Dead Load, Live Load, and Other Load Combinations Static and Dynamic Load Analysis Bridge Load Rating and Factor of Safety
Class 3. Bridge Design
Module 5: Bridge Design Principles in STAAD Pro Superstructure and Substructure Design Designing Slabs, Girders, and Piers Cable-Stayed and Suspension Bridge Design Basics
Module 6: Advanced Design Techniques Seismic and Wind Load Considerations Finite Element Analysis for Complex Structures Optimization Techniques for Cost-Effective Design
Class 4. BridgeDesign
Module 7: Practical Demonstrations Real-Life Bridge Design Examples Hands-On Project: Designing a Small Bridge Using STAAD Pro Troubleshooting and Best Practices
Module 8: Report Generation and Documentation Generating Design Reports in STAAD Pro Reviewing and Finalizing Bridge Design Outputs Collaboration and Submission of Project Reports