Structural Steel Design Training Course
| Date | Format | Duration | Fees (USD) | Register |
|---|---|---|---|---|
| 21 Apr - 25 Apr, 2025 | Live Online | 5 Days | $3785 | Register → |
| 19 May - 21 May, 2025 | Live Online | 3 Days | $2625 | Register → |
| 16 Jun - 18 Jun, 2025 | Live Online | 3 Days | $2625 | Register → |
| 29 Sep - 03 Oct, 2025 | Live Online | 5 Days | $3785 | Register → |
| 27 Oct - 31 Oct, 2025 | Live Online | 5 Days | $3785 | Register → |
| 17 Nov - 21 Nov, 2025 | Live Online | 5 Days | $3785 | Register → |
| 29 Dec - 09 Jan, 2026 | Live Online | 10 Days | $7735 | Register → |
| Date | Venue | Duration | Fees (USD) | Register |
|---|---|---|---|---|
| 21 Apr - 25 Apr, 2025 | London | 5 Days | $6305 | Register → |
| 19 May - 23 May, 2025 | Cape Town | 5 Days | $5775 | Register → |
| 23 Jun - 27 Jun, 2025 | Nairobi | 5 Days | $5775 | Register → |
| 21 Jul - 25 Jul, 2025 | Nairobi | 5 Days | $5775 | Register → |
| 18 Aug - 22 Aug, 2025 | London | 5 Days | $6305 | Register → |
| 22 Sep - 26 Sep, 2025 | Nairobi | 5 Days | $5775 | Register → |
| 20 Oct - 24 Oct, 2025 | Frankfurt | 5 Days | $6305 | Register → |
| 03 Nov - 07 Nov, 2025 | Sharm El-Sheikh | 5 Days | $5775 | Register → |
| 22 Dec - 26 Dec, 2025 | Nairobi | 5 Days | $5775 | Register → |
Did you know that structural steel design follows key principles including load considerations, structural stability, and material selection to ensure buildings can withstand various forces while remaining economical and functional?
Course Overview
The Structural Steel Design Training Course by Alpha Learning Centre is meticulously designed to equip professionals with advanced methodologies for designing and analysing steel structures. This course focuses on material properties, connection design, and advanced structural systems to ensure participants can effectively navigate the complex landscape of steel design according to international standards including Eurocode 3 and AISC specifications.
Why Select This Training Course?
Selecting this Structural Steel Design Course offers numerous advantages for professionals involved in structural engineering and construction. Participants will gain advanced knowledge of tension member design, compression member stability, and flexural component analysis. The course provides hands-on experience with industry-standard design software and real-world steel structure projects, enabling attendees to optimise their steel design strategies effectively.
For organisations, investing in this training enhances overall project quality and ensures better compliance with safety standards. Research indicates that implementing comprehensive steel design frameworks results in enhanced ability to determine loads, perform frame analysis, and verify members precisely. The structural design process involves determining loads, performing frame analysis, and verifying members – all areas where steel excels because its material properties are known and member properties are accurate, meaning analysis is precise. Design rules for steel are clear and mature, having been developed over many decades.
For individuals who complete this course will benefit from enhanced career prospects as they become more valuable assets in their respective fields. Studies indicate that professionals with steel design expertise can significantly improve their career trajectory as the design process requires engineers to conceive the steel structure, check if its shape and arrangement fulfill intended functions, idealise it as an assembly of basic elements, decide on connections and support conditions, and select appropriate material grades and cross-sectional shapes.
Transform your structural steel design capabilities – Register now for this critical advanced training programme!
Who Should Attend?
This Alpha Learning Centre Course is suitable for:
- Structural Engineers specializing in steel
- Civil Engineers needing steel design skills
- Architects for steel structure integration
- Detailers for steel fabrication
- Project Managers handling steel projects
What are the Training Goals?
The purpose of this course is to:
- Master design of steel structural elements
- Apply modern steel design codes effectively
- Enhance detailing for fabrication and erection
- Solve complex steel design challenges
- Ensure compliance with safety standards
How will this Training Course be Presented?
The Structural Steel Design Training Course delivers comprehensive, hands-on training through proven methodologies designed to maximise learning outcomes and practical skill development. Our expert instructors employ the following methods:
- Detailed design workshops
- Analysis of real steel structure projects
- Simulation of steel design software
- Peer reviews of steel design solutions
Each delivery method is carefully integrated to ensure participants gain both theoretical knowledge and practical experience. The course structure promotes active engagement and real-world application, allowing participants to develop crucial analytical and strategic skills within a supportive learning environment.
Join us to experience this dynamic and effective learning approach – Register now to secure your place!
Course Syllabus
Module 1: Steel Material Properties
- Physical and mechanical properties of steel
- Steel grades and their applications
- Corrosion resistance and protection
- Material selection for different environments
- Testing and quality assurance of steel
Module 2: Steel Connection Design
- Bolted connections design principles
- Welded joint design and detailing
- Eccentric connections and their analysis
- Connection efficiency and load transfer
- Design for moment connections
- Shear connections and their specifications
- Fatigue considerations in connections
Module 3: Design of Steel Members
- Tension member design
- Compression member stability
- Flexural member (beam) design
- Beam-columns and interaction equations
- Design for lateral-torsional buckling
Module 4: Load and Structural Analysis
- Load combinations and design methods
- Elastic and plastic analysis methods
- Second-order effects in steel structures
- Dynamic analysis for seismic design
- Stability analysis techniques
Module 5: Steel Structural Systems
- Frame analysis and design
- Truss design and analysis
- Plate girder design
- Composite steel-concrete structures
- Bracing systems for stability
Module 6: Design for Safety
- Fire resistance in steel structures
- Designing for robustness and redundancy
- Impact and blast resistance design
- Seismic design principles for steel
Module 7: Advanced Steel Design Techniques
- Design of curved and tapered members
- Cold-formed steel design
- Tubular structures and connections
- Lightweight steel construction
- High-strength steel applications
Module 8: Steel Design Codes and Standards
- Application of Eurocode 3
- AISC Steel Construction Manual usage
- National annexes and local codes
- Compliance with safety and design standards
Module 9: Fabrication and Erection Considerations
- Fabrication tolerances and practices
- Shop drawings and their interpretation
- Erection sequence planning
- Quality control during construction
Module 10: Steel Structure Maintenance
- Inspection techniques for steel structures
- Repair and rehabilitation of steelwork
- Corrosion prevention and maintenance
- Life extension strategies for steel structures
Module 11: Software in Steel Design
- Advanced use of STAAD.Pro for steel design
- Integration of Tekla Structures in workflow
- Finite element analysis for complex structures
- BIM for steel detailing and coordination
Module 12: Sustainable Steel Design
- Life-cycle assessment of steel structures
- Sustainable steel sourcing and recycling
- Energy efficiency in steel buildings
- Reducing carbon footprint in steel construction
Module 13: Economic Considerations
- Cost estimation for steel structures
- Value engineering in steel design
- Project economics and steel optimization
Training Impact
The impact of structural steel design training is evident through various real-world case studies and data, which demonstrate the effectiveness of structured programmes in enhancing project quality and safety.
Research indicates that professionals with strong steel design skills can significantly improve project outcomes. According to industry experts, best practices include a systematic approach:
- Conceiving the steel structure
- Checking functionality of the structure’s shape and arrangement
- Idealising it as an assembly of basic elements
- Deciding on element assembly and connection types
- Determining support conditions
- Choosing appropriate material grades and cross-sections
- Selecting preliminary member sizes
- Assessing various loads the structure must resist
- Analysing the structure using mathematical techniques
- Checking if preliminary sizes can safely resist anticipated forces
- Optimising member sizes and reviewing conditions
- Preparing detailed drawings and bill of materials
These case studies highlight the tangible benefits of implementing advanced steel design techniques:
- Improved structural stability through proper load analysis
- Enhanced safety through comprehensive connection design
- Increased efficiency in material selection and optimisation
- Strengthened compliance with international design standards
By investing in this advanced training, organisations can expect to see:
- Significant improvement in steel structure performance
- Improved ability to handle complex design challenges
- Enhanced decision-making capabilities in structural engineering
- Increased competitiveness through comprehensive steel design strategies
Transform your career and organisational performance – Enrol now to master Structural Steel Design!
