The ICTQual AB Level 6 International Diploma in Structural Engineering is a comprehensive qualification designed to prepare learners for successful careers in one of the most critical sectors of civil and construction engineering. This three-year programme, carrying 360 credits, offers a progressive learning journey that combines theoretical knowledge with practical applications, making it ideal for both freshers entering the industry and professionals aiming to enhance their expertise.
Structural engineering plays a vital role in the design, analysis, and maintenance of buildings, bridges, and infrastructure projects worldwide. Through this diploma, learners will gain in-depth understanding of core areas such as structural analysis, material behaviour, geotechnical principles, sustainable construction, and advanced design methods. The course also develops essential skills in project management, problem-solving, and technical decision-making, ensuring graduates are well-prepared for complex engineering challenges.
Completing this qualification provides learners with access to diverse career opportunities across construction firms, engineering consultancies, infrastructure development projects, and government bodies. Professionals can advance into roles such as structural engineer, site engineer, project manager, or consultancy specialist, while freshers gain a solid foundation to launch their careers with confidence.
With a strong emphasis on industry relevance, innovation, and sustainability, the programme equips learners with the tools to thrive in today’s global construction and engineering markets. By the end of the course, learners will have developed both the academic knowledge and practical competencies required to contribute effectively to major projects, positioning themselves as skilled professionals in the international structural engineering sector.
Inspire College of Technologies UK is Directly Approved Training Centre of ICTQual AB
The ICTQual AB Level 6 International Diploma in Structural Engineering is a specialised qualification that provides learners with the technical knowledge, analytical skills, and practical experience needed to succeed in the global construction and engineering industries. Designed as a three-year programme with 36 mandatory units and a total of 360 credits, the course builds a strong foundation while advancing into complex structural concepts and modern engineering practices.
Throughout the programme, learners explore key areas such as structural analysis, advanced design methods, material science, geotechnical engineering, construction management, sustainability, and infrastructure development. Each stage of study is designed to enhance both technical expertise and transferable skills, ensuring that graduates are industry-ready and adaptable to evolving professional demands.
The qualification combines academic study with applied learning, including project-based assignments and a final capstone project that enables learners to demonstrate their ability to apply theoretical principles to real-world engineering challenges. This balance of knowledge and practice ensures learners develop confidence in problem-solving, critical thinking, and effective communication within engineering environments.
By completing this diploma, learners will gain career-ready competencies that open doors to opportunities in consultancies, construction companies, infrastructure projects, and government or private sector organisations. Whether aiming to become a structural engineer, site engineer, design consultant, or project leader, learners will graduate with the skills required to contribute to safe, sustainable, and innovative structural solutions.
This programme also serves as a progression pathway, enabling learners to pursue further advanced studies or professional development opportunities in structural engineering and related fields.
This qualification, the ICTQual AB Level 6 International Diploma in Structural Engineering, consists of 36 mandatory units.
Year 1 – Foundation in Structural Engineering
- Principles of Civil and Structural Engineering
- Engineering Mathematics
- Engineering Mechanics and Materials
- Structural Analysis – Fundamentals
- Engineering Drawing and CAD
- Construction Materials and Technology
- Surveying and Geomatics
- Soil Mechanics and Geotechnics – Basics
- Fluid Mechanics and Hydraulics
- Health, Safety and Environmental Practices in Construction
- Communication and Technical Report Writing
- Introduction to Construction Management
Year 2 – Intermediate Studies in Structural Engineering
- Structural Analysis – Intermediate Applications
- Steel and Concrete Structural Design
- Geotechnical Engineering and Foundation Design
- Applied Hydraulics and Hydrology
- Transportation and Highway Engineering
- Structural Dynamics and Earthquake Engineering – Basics
- Environmental Engineering in Construction
- Advanced Surveying and GIS Applications
- Project Planning and Construction Management
- Construction Economics and Cost Control
- Sustainable Construction Practices
- Applied Research Methods in Engineering
Year 3 – Advanced Studies in Structural Engineering
- Advanced Structural Analysis and Modelling
- Design of High-Rise and Complex Structures
- Bridge Engineering and Design
- Structural Dynamics and Earthquake Engineering – Advanced
- Advanced Geotechnical Engineering
- Construction Project Risk and Quality Management
- Building Information Modelling (BIM) and Digital Engineering
- Smart Materials and Innovative Construction Technologies
- Professional Ethics and Sustainability in Engineering
- Innovation and Entrepreneurship in Engineering
- Infrastructure Development and Urban Planning
- Final Year Major Project (Capstone Project)
The ICTQual AB Level 6 International Diploma in Structural Engineering is designed for learners who want to build or advance their careers in the dynamic and globally significant field of structural and civil engineering. It is suitable for both freshers looking to enter the construction and infrastructure sector, and experienced professionals seeking to upgrade their technical expertise and professional standing.
This diploma is ideal for learners who wish to:
- Gain a strong foundation in structural analysis, design principles, and material behaviour
- Develop practical skills in infrastructure development, construction management, and sustainable engineering
- Pursue rewarding careers as structural engineers, site engineers, project managers, or consultancy specialists
- Enhance their knowledge of modern practices such as sustainable construction, advanced modelling, and geotechnical applications
- Strengthen leadership, project management, and problem-solving skills for global engineering roles
The programme also supports learners who are seeking career progression within construction firms, government bodies, engineering consultancies, and international infrastructure projects. By combining technical depth with applied learning, it equips individuals to contribute to safe, efficient, and sustainable structural solutions.
Whether you are starting your journey in engineering or looking to expand into senior roles, this qualification provides the professional value, global recognition, and industry relevance needed to excel in today’s competitive structural engineering sector.
Here are the learning outcomes for each study unit:
Year 1 – Foundation in Structural Engineering
1. Principles of Civil and Structural Engineering
- Understand the fundamentals of civil and structural engineering
- Recognise the role of structural engineering in construction and infrastructure projects
- Apply core engineering principles to real-world contexts
2. Engineering Mathematics
- Apply advanced mathematical concepts to engineering problem-solving
- Use calculus, algebra, and statistics for structural analysis
- Strengthen logical reasoning for technical applications
3. Engineering Mechanics and Materials
- Understand mechanics principles related to forces, stress, and strain
- Evaluate the behaviour of engineering materials under load
- Apply mechanics in designing safe and efficient structures
4. Structural Analysis – Fundamentals
- Understand basic structural analysis methods
- Apply equilibrium, stability, and load concepts to simple structures
- Use analytical techniques to assess structural behaviour
5. Engineering Drawing and CAD
- Produce accurate engineering drawings for structural projects
- Apply CAD software in design and modelling tasks
- Interpret technical drawings for construction applications
6. Construction Materials and Technology
- Identify properties and uses of construction materials
- Evaluate the suitability of materials for specific engineering projects
- Apply construction technology principles in practice
7. Surveying and Geomatics
- Understand surveying methods and geomatic principles
- Use instruments for land measurement and mapping
- Apply surveying data in construction and infrastructure planning
8. Soil Mechanics and Geotechnics – Basics
- Understand soil properties and classifications
- Apply soil mechanics in foundation design and stability assessment
- Evaluate ground conditions for construction suitability
9. Fluid Mechanics and Hydraulics
- Apply fluid mechanics principles in engineering contexts
- Understand flow behaviour in pipes, channels, and structures
- Evaluate hydraulic systems in construction projects
10. Health, Safety and Environmental Practices in Construction
- Recognise safety regulations and environmental standards in construction
- Apply safe practices on construction sites
- Evaluate sustainability measures for responsible engineering
11. Communication and Technical Report Writing
- Develop technical writing and documentation skills
- Present engineering information clearly to different audiences
- Apply professional communication methods in construction environments
12. Introduction to Construction Management
- Understand construction management processes and responsibilities
- Apply basic project planning and coordination techniques
- Recognise the role of management in successful project delivery
Year 2 – Intermediate Studies in Structural Engineering13. Structural Analysis – Intermediate Applications
- Apply advanced structural analysis techniques to complex problems
- Use computational methods to evaluate structural performance
- Assess the safety and stability of intermediate-level structures
14. Steel and Concrete Structural Design
- Understand design principles for steel and reinforced concrete structures
- Apply international standards in design calculations
- Develop skills for safe and efficient structural design
15. Geotechnical Engineering and Foundation Design
- Analyse soil-structure interaction in engineering design
- Apply geotechnical principles in foundation construction
- Evaluate different types of foundation systems
16. Applied Hydraulics and Hydrology
- Understand water flow in natural and built environments
- Apply hydraulic and hydrological models in design
- Evaluate flood risk and water management strategies
17. Transportation and Highway Engineering
- Understand principles of highway and transport system design
- Apply methods for road construction, alignment, and safety
- Evaluate sustainable solutions in transportation projects
18. Structural Dynamics and Earthquake Engineering – Basics
- Understand structural responses to dynamic and seismic loads
- Apply basic earthquake engineering principles in design
- Assess safety considerations in seismic-prone areas
19. Environmental Engineering in Construction
- Understand the impact of construction on the environment
- Apply environmental management practices in engineering projects
- Evaluate sustainable approaches to reduce environmental footprint
20. Advanced Surveying and GIS Applications
- Apply advanced surveying techniques using modern instruments
- Use GIS tools for spatial analysis and project planning
- Integrate digital technologies into surveying practices
21. Project Planning and Construction Management
- Develop project schedules using management tools
- Apply resource allocation and risk management techniques
- Evaluate factors influencing project success and delivery
22. Construction Economics and Cost Control
- Understand construction cost estimation and financial planning
- Apply cost control techniques during project execution
- Evaluate economic feasibility of engineering projects
23. Sustainable Construction Practices
- Apply principles of sustainable development in construction
- Evaluate eco-friendly materials and green technologies
- Integrate sustainability into project planning and design
24. Applied Research Methods in Engineering
- Understand research methodologies relevant to structural engineering
- Apply data collection and analysis techniques
- Develop skills to conduct independent engineering research
Year 3 – Advanced Studies in Structural Engineering
25. Advanced Structural Analysis and Modelling
- Apply advanced methods of structural analysis and simulation
- Use modelling tools to evaluate complex structural systems
- Assess performance of structures under varied load conditions
26. Design of High-Rise and Complex Structures
- Understand design principles for tall buildings and unique structures
- Apply advanced modelling for safety and performance analysis
- Evaluate innovative design solutions for complex projects
27. Bridge Engineering and Design
- Understand bridge design principles and construction methods
- Apply analysis techniques for structural safety and stability
- Develop designs for different types of bridges
28. Structural Dynamics and Earthquake Engineering – Advanced
- Apply advanced seismic analysis methods to structures
- Evaluate structural resilience against earthquake impacts
- Integrate seismic design standards into engineering practice
29. Advanced Geotechnical Engineering
- Analyse complex soil-structure interactions
- Apply advanced geotechnical methods in design and construction
- Evaluate innovative solutions for challenging ground conditions
30. Construction Project Risk and Quality Management
- Identify and manage risks in construction projects
- Apply quality assurance techniques to ensure compliance
- Evaluate strategies for continuous improvement in project delivery
31. Building Information Modelling (BIM) and Digital Engineering
- Understand BIM principles and applications in construction
- Use digital engineering tools to enhance project planning and design
- Apply BIM for collaboration and lifecycle management
32. Smart Materials and Innovative Construction Technologies
- Explore properties and applications of smart materials
- Apply innovative construction methods for modern projects
- Evaluate new technologies for efficiency and sustainability
33. Professional Ethics and Sustainability in Engineering
- Understand ethical responsibilities of structural engineers
- Apply sustainable engineering practices in professional work
- Evaluate the role of ethics in engineering decision-making
34. Innovation and Entrepreneurship in Engineering
- Develop entrepreneurial thinking in engineering contexts
- Apply innovation strategies for business development
- Evaluate opportunities for engineering-led enterprises
35. Infrastructure Development and Urban Planning
- Understand the principles of infrastructure and urban planning
- Apply planning tools for sustainable city and infrastructure projects
- Evaluate the role of engineers in urban development
36. Final Year Major Project (Capstone Project)
- Conduct independent research on a structural engineering challenge
- Apply technical knowledge and project management skills
- Present innovative solutions to real-world industry problems
The ICTQual AB Level 6 International Diploma in Structural Engineering follows a structured certification pathway designed to equip learners with progressive knowledge, practical skills, and industry-focused expertise across three years of study. The qualification consists of 36 mandatory units and carries a total of 360 credits, ensuring a balance of academic depth and applied learning.
In Year 1, learners build a strong foundation in mathematics, mechanics, surveying, materials, and fundamental structural principles. Year 2 advances into specialised areas such as steel and concrete design, geotechnical engineering, transportation systems, hydrology, and sustainable construction practices. In Year 3, learners focus on advanced applications, including high-rise and bridge design, earthquake engineering, BIM, smart materials, and infrastructure planning, culminating in a final-year major project that showcases their professional capabilities.
The certification route ensures learners:
- Progress systematically through core, intermediate, and advanced levels of structural engineering study
- Gain credits for each unit completed successfully, with clear learning milestones
- Apply knowledge through project-based assessments, research activities, and simulations
- Demonstrate innovation, analytical ability, and problem-solving skills in the capstone project
Upon successful completion of all requirements, learners are awarded the ICTQual AB Level 6 International Diploma in Structural Engineering, validating their readiness for professional practice in global industries. The certification also provides opportunities for progression into higher-level academic programmes or advanced professional roles within the construction, civil, and structural engineering sectors.
