Learning Outcomes for the ICTQual AB Level 6 International Diploma in Structural Engineering:

Year 1 – Foundation in Structural Engineering

Principles of Civil and Structural Engineering

• Understand the fundamental principles of civil and structural engineering.
• Describe the roles of civil and structural engineers in infrastructure development.
• Apply basic engineering concepts to real-world construction scenarios.

Engineering Mathematics

• Solve algebraic, trigonometric, and calculus problems in structural contexts.
• Apply mathematical modelling techniques to engineering problems.
• Use numerical methods to support structural design and analysis.

Engineering Mechanics and Materials

• Analyse force systems, equilibrium, stress, and strain in structural elements.
• Evaluate the properties and behaviours of engineering materials.
• Apply mechanics principles to design safe and reliable structures.

Structural Analysis – Fundamentals

• Understand concepts of load, support, and structural stability.
• Perform basic analysis of beams, trusses, and frames.
• Apply theoretical knowledge to solve simple structural problems.

Engineering Drawing and CAD

• Interpret and create engineering drawings using international standards.
• Develop 2D and 3D models using CAD software.
• Apply dimensioning and tolerancing to construction and structural drawings.

Construction Materials and Technology

• Identify and evaluate properties of construction materials.
• Understand traditional and modern construction technologies.
• Select appropriate materials for structural applications.

Surveying and Geomatics

• Apply surveying techniques for measurement and mapping.
• Use levelling, traversing, and GPS/GIS systems in construction.
• Analyse survey data for planning and structural layout.

Soil Mechanics and Geotechnics – Basics

• Identify soil properties and classification systems.
• Analyse soil behaviour under different loading conditions.
• Apply basic geotechnical principles in foundation planning.

Fluid Mechanics and Hydraulics

• Understand fluid properties and principles of hydrostatics.
• Analyse fluid flow in pipes and channels.
• Apply hydraulics to water supply and drainage systems.

Health, Safety and Environmental Practices in Construction

• Apply workplace health and safety regulations.
• Conduct risk assessments in construction environments.
• Understand sustainable practices and environmental considerations.

Communication and Technical Report Writing

• Develop professional written, visual, and verbal communication skills.
• Prepare structured technical reports with referencing.
• Apply industry-standard documentation practices.

Introduction to Construction Management

• Understand the principles of construction project management.
• Identify roles and responsibilities in construction projects.
• Apply basic planning and scheduling tools.

Year 2 – Intermediate Studies in Structural Engineering

Structural Analysis – Intermediate Applications

• Analyse determinate and indeterminate structures.
• Apply methods such as moment distribution and matrix analysis.
• Evaluate structural behaviour under complex loading conditions.

Steel and Concrete Structural Design

• Understand codes and standards for steel and concrete design.
• Design beams, slabs, columns, and connections.
• Apply design software to validate structural elements.

Geotechnical Engineering and Foundation Design

• Analyse soil bearing capacity and settlement.
• Design shallow and deep foundations.
• Apply geotechnical investigations to structural projects.

Applied Hydraulics and Hydrology

• Evaluate surface and groundwater flow systems.
• Design hydraulic structures such as dams, channels, and spillways.
• Apply hydrological models to flood risk management.

Transportation and Highway Engineering

• Understand geometric design principles of roads and highways.
• Analyse pavement materials and design methods.
• Apply traffic flow theory to transportation planning.

Structural Dynamics and Earthquake Engineering – Basics

• Understand vibration and dynamic behaviour of structures.
• Evaluate seismic forces and their effects on structures.
• Apply basic seismic design principles.

Environmental Engineering in Construction

• Apply waste management techniques in construction.
• Evaluate water and air quality impacts of projects.
• Integrate sustainability into construction practices.

Advanced Surveying and GIS Applications

• Apply total station and GPS systems in advanced surveying.
• Integrate GIS tools in construction planning.
• Analyse spatial data for infrastructure projects.

Project Planning and Construction Management

• Apply project management methodologies (e.g., Gantt, CPM).
• Manage resources, time, and costs effectively.
• Evaluate risks and apply mitigation strategies.

Construction Economics and Cost Control

• Understand principles of construction economics.
• Prepare cost estimates and budgets for structural projects.
• Apply value engineering and cost control techniques.

Sustainable Construction Practices

• Evaluate green building technologies.
• Apply life-cycle assessment to construction projects.
• Promote energy-efficient and eco-friendly design.

Applied Research Methods in Engineering

• Develop a research proposal relevant to structural engineering.
• Apply quantitative and qualitative research techniques.
• Interpret research findings using statistical methods.

Year 3 – Advanced Studies in Structural Engineering

Advanced Structural Analysis and Modelling

• Apply finite element analysis (FEA) in structural modelling.
• Evaluate structural performance using advanced software.
• Analyse non-linear and dynamic behaviours in complex systems.

Design of High-Rise and Complex Structures

• Understand structural systems for tall buildings.
• Design lateral load-resistant systems for stability.
• Apply innovative methods to design complex structures.

Bridge Engineering and Design

• Understand principles of bridge engineering.
• Design steel, concrete, and composite bridges.
• Evaluate construction methods for different bridge types.

Structural Dynamics and Earthquake Engineering – Advanced

• Apply advanced methods of seismic analysis.
• Design earthquake-resistant structural systems.
• Assess retrofitting techniques for existing structures.

Advanced Geotechnical Engineering

• Evaluate soil-structure interaction under complex loading.
• Analyse slope stability and retaining wall systems.
• Apply advanced geotechnical modelling techniques.

Construction Project Risk and Quality Management

• Identify and analyse project risks.
• Apply quality management systems in construction.
• Monitor and control performance through audits.

Building Information Modelling (BIM) and Digital Engineering

• Develop BIM models for structural projects.
• Apply digital collaboration tools in project delivery.
• Integrate BIM with cost and time management.

Smart Materials and Innovative Construction Technologies

• Evaluate applications of smart and sustainable materials.
• Apply advanced construction technologies such as 3D printing.
• Analyse performance of new materials in structural systems.

Professional Ethics and Sustainability in Engineering

• Apply ethical decision-making frameworks in engineering practice.
• Evaluate social, economic, and environmental responsibilities.
• Promote sustainable and responsible engineering solutions.

Innovation and Entrepreneurship in Engineering

• Apply principles of innovation in construction and structural design.
• Develop entrepreneurial skills for technology-driven ventures.
• Create business plans for engineering solutions.

Infrastructure Development and Urban Planning

• Understand urban infrastructure planning and design.
• Apply structural engineering in transportation, water, and energy systems.
• Evaluate challenges of sustainable urbanisation.

Final Year Major Project (Capstone Project)

• Undertake independent research or applied structural project.
• Demonstrate integration of multi-disciplinary engineering knowledge.
• Present findings in a professional report and oral presentation.