Introduction
Structural design is a fundamental aspect of engineering projects, ensuring that buildings and infrastructure are safe, stable, and capable of withstanding loads and environmental conditions. For non-structural engineers, understanding the basics of structural behavior and design principles is essential for effective coordination, decision-making, and project success.
This program, designed by Global Horizon Training Center, provides a practical and accessible approach to structural design, equipping participants with essential knowledge to interpret structural systems, collaborate with specialists, and contribute effectively to engineering projects.
Course Objectives
By the end of this program, participants will be able to:
- Understand fundamental concepts of structural engineering
- Identify different structural systems and components
- Recognize types of loads and their effects on structures
- Interpret basic structural drawings and specifications
- Understand material behavior (concrete, steel, etc.)
- Apply simplified design concepts and checks
- Coordinate effectively with structural engineers
- Identify potential structural risks and considerations
Target Audience
This program is designed for:
- Mechanical, Electrical, and Civil Engineers (non-structural roles)
- Project Managers and Site Engineers
- Architects and Design Professionals
- Construction Supervisors
- Facility and Infrastructure Professionals
- Anyone involved in engineering projects requiring structural awareness
Outline
Day 1: Fundamentals of Structural Engineering
- Introduction to structural design concepts
- Types of structures and systems (frames, trusses, shells)
- Load types (dead, live, wind, seismic)
- Structural behavior basics
- Safety factors and design philosophy
Day 2: Structural Materials and Their Behavior
- Properties of concrete, steel, and composite materials
- Stress-strain relationships
- Strength, stiffness, and durability
- Material selection criteria
- Introduction to design codes and standards
Day 3: Structural Elements and Load Paths
- Beams, columns, slabs, and foundations
- Load transfer and distribution
- Structural detailing concepts
- Reading and interpreting structural drawings
- Common design considerations
Day 4: Basic Design Concepts and Coordination
- Simplified structural calculations and checks
- Design considerations for stability and safety
- Coordination between disciplines (MEP, architecture, structure)
- Identifying design conflicts and solutions
- Risk awareness in structural design
Day 5: Practical Applications and Case Studies
- Review of real project examples
- Common structural issues and lessons learned
- Best practices in project coordination
- Introduction to structural software tools
- Case studies and real-world applications
