Introduction
This advanced programme offers a broader range of courses compared to most structural engineering programmes, allowing you to design your course of study to suit your background and career interests and to tackle environmental, economic and social challenges far beyond the construction industry.
This programme has January and September start dates. Apply Now.
This programme is also available to study part-time online.
Study Information
Study Options
- Learning Mode
- On Campus Learning
- Degree Qualification
- MSc
- Duration
- 12 months
- Study Mode
- Full Time
- Start Month
- January or September
- Location of Study
- Aberdeen
Unlike most other programmes in structural engineering that focus on the construction industry, the MSc Advanced Structural Engineering at Aberdeen has been developed to ensure engineers from any background - including civil, mechanical, aerospace, automotive and energy - can contribute to the advancement of society on a global scale.
In particular, we focus on topics such as advanced composite materials, lightweight structures and engineering optimisation – skills and knowledge that are crucial for engineers interested in pursuing careers in aerospace, automotive or wind energy sectors where lightweight structures made of advanced composite materials and highly optimised for their performance play a key role.
Almost all industry sectors are experiencing a period of tremendous change with technological developments in areas such as 3D printing, robotics, artificial intelligence and machine learning. This advanced programme is designed to produce the next generation of structural engineers who can embrace these opportunities to tackle the challenges of sustainable development, climate change, pollution and waste.
Our teaching is informed by our industry partners and our research. The School of Engineering is highly regarded its research in civil engineering and has one of the best hydraulic laboratory facilities in Scotland associated with a high-level research profile. The Structures Research group in particular investigates fundamental and applied aspects of the design and analysis of structural systems, components, connections and materials, and evaluates the performance, condition and health of existing structural systems.
This programme is accredited by both the Institution of Civil Engineers (ICE) and the Institution of Mechanical Engineers, ensuring that the curriculum is designed and delivered to the highest professional standards.
Available Programmes of Study
- MSc
-
Advanced Structural Engineering
Qualification Duration Learning Mode Study Mode Start Month LocationMSc 12 months On Campus Learning Full Time January Aberdeen MoreMSc 12 months On Campus Learning Full Time September Aberdeen MoreProgramme Fees
Fee information Fee category Cost EU / International students £26,250 Tuition Fees for 2025/26 Academic Year UK £11,100 Tuition Fees for 2024/25 Academic Year Stage 1
Compulsory Courses
- Advanced Composite Materials (EM501Q)
-
15 Credit Points
Advanced materials underpin many industry sectors and are viewed as one of the key enabling technologies that can help address environmental, economic and social challenges the society is facing. Lightweight materials such as composites applied to vehicles, structures and devices can help reduce energy consumption and emissions, and increase energy efficiency. The aim of this course is introduce students to the mechanical behaviour of composite materials and the design of structures made of composites.
- Structural Vibrations (EG50T9)
-
15 Credit Points
The need for understanding dynamics in modern structural engineering arises from the fact that structures are often subjected to dynamic loads such as waves, wind, earthquake, blast and impacts. The structural engineer must therefore be able to understand and quantify dynamic loads and their effects. This course reviews the fundamentals of structural dynamics and explains more advanced concepts and methods (including analytical and numerical), as well as their applications to practical design and analysis problems. The theoretical concepts are illustrated by worked examples and numerous tutorial problems and assignments will enable students to gain confidence in their use.
Optional Courses
Select TWO from the following:
- Offshore Structural Design (EA50JG)
-
15 Credit Points
This course follows on from the Level 3 Design of Structural Elements course and the Level 4 Advanced Structural Design course, extending the earlier concepts into areas relevant to Offshore Structural Design. The course aim is to introduce the student to some specialised fields of conceptual structural engineering design in an offshore context, and to develop confidence in these areas. The course divides into current main topics of offshore structures and involves hand calculations with the aid of spreadsheets and advanced computational modelling for accurate loading, analysis and design.
- Fire and Explosion Engineering (EG5071)
-
15 Credit Points
Hydrocarbon fires and explosions produce extreme loading on engineering components. Structural steels lose their strength and stiffness well below the temperatures associated with hydrocarbon fires. Safety-critical elements must be designed to withstand both these temperatures and the blast overpressures that result from hydrocarbon explosions. Simple models are used to assess the loading that results from fires and explosions. Structural elements are analysed to illustrate the design procedures that are required to prevent escalation and to design against major accident scenarios.
- Computational Fluid Dynamics (EG501V)
-
15 Credit Points
The course aims to provide understanding of main principles and techniques underpinning computational fluid dynamics (CFD) combining numerical methods with practical experience using appropriate software. The course develops a foundation for understanding, developing and analysing successful simulations of fluid flows applicable to a broad range of applications.
Stage 2
Compulsory Courses
- Mathematical Optimisation (EG551T)
-
15 Credit Points
Ever wondered how Excel is able to draw an optimal line through a set of points? This course looks at how typical engineering problems that cannot be described mathematically (or are difficult to do so) can be solved so that the optimal solution is found. The course contains a range of examples to show how the techniques are applied to real world problems in different engineering disciplines. The course will show how to develop computational algorithms from scratch, with a fundamental understanding of how the algorithms function, both mathematically and then in real time on a computer.
- Lightweight Structures (EG552R)
-
15 Credit Points
This course is one of the key courses for the MSc Advanced Structural Engineering. The aim of this course is to provide students with knowledge and skills of analysis and design of lightweight structures for mechanical, civil, aerospace, automotive and wind energy applications.
Optional Courses
Select TWO from the following:
- Riser Systems and Hydrodynamics (EG55F9)
-
15 Credit Points
The course provides students with detailed knowledge of risers systems design considerations. Typical riser systems including flexible, steel catenary, hybrid and top tensioned riser systems are covered. The ocean environmental hydrodynamics and interactions between vessel, mooring and riser systems are also considered.
- Engineering Risk and Reliability Analysis (EG55P6)
-
15 Credit Points
The world is full of uncertainties and there is a level of risk in every human activity, including engineering. Many industries require an engineer to manage significant risks and design for high reliability, such as oil and gas, subsea, nuclear, aviation and large civil projects (e.g. bridges and dams). To meet these engineering challenges and make rational decisions in the presence of uncertainty, this course will introduce students to methods and tools used by engineers to analysis risk and reliability.
- Finite Element Methods (EG55M1)
-
15 Credit Points
The background to the finite element method and its use in various industrial applications is explained in this course. As well as the modelling of linear static and dynamic problems, the modelling of material and geometric non-linearity is an important aspect of the course. Coursework assignments will be based on the student edition of ABAQUS which is supplied with the Course Textbook which students are required to purchase.
Stage 3
Compulsory Courses
- MSc Individual Project (EG59F1)
-
60 Credit Points
The MSc Individual Project is an independent piece of research based on a topic related to a student’s degree programme. Students are encouraged to focus on a problem confronting industry or a related area. The individual project provides students with an opportunity to demonstrate how the in-depth skills and knowledge they have gained during the taught courses can be used to provide solutions to practical problems. The individual project should contain a degree of original research.
We will endeavour to make all course options available. However, these may be subject to change - see our Student Terms and Conditions page.
Fee Information
Additional Fee Information
- Fees for individual programmes can be viewed in the Programmes section above.
- In exceptional circumstances there may be additional fees associated with specialist courses, for example field trips. Any additional fees for a course can be found in our Catalogue of Courses.
- For more information about tuition fees for this programme, including payment plans and our refund policy, please visit our Tuition Fees page.
Funding Opportunities
- Shell U.K. Limited is offering three £20,000 scholarships for students starting a Masters programme aligned with the Centre for Energy Transition (CET) commencing in September 2024. Find out more
Scholarships
Self-funded international students enrolling on postgraduate taught (PGT) programmes will receive one of our Aberdeen Global Scholarships, ranging from £3,000 to £8,000, depending on your domicile country. Learn more about the Aberdeen Global Scholarships here.
To see our full range of scholarships, visit our Funding Database.
How You'll Study
Learning Methods
- Group Projects
- Individual Projects
- Lab Work
- Lectures
- Research
- Seminars
- Tutorials
- Workshops
Why Study Advanced Structural Engineering?
- Follows the Structural Engineering Institute "Vision for the Future" by offering a broad and flexible curriculum, which allows you to design your course of study to suit your academic background and career interests far beyond the construction industry.
- Suitable for graduates from a variety of engineering backgrounds, including mechanical, civil, aerospace, automotive and energy.
- Unlike many other programmes in structural engineering that focus on the construction industry, the MSc Advanced Structural Engineering at Aberdeen is designed to produce the next generation of structural engineering professionals capable of applying their skills across a wide range of industrial sectors, such as construction, aerospace, automotive, renewable energy, and oil and gas.
- Offers courses such as Advanced Composite Materials, Lightweight Structures and Engineering Optimisation, which are crucial for students interested in pursuing a career in Aerospace, Automotive or Wind Energy sectors, where lightweight structures made of advanced composite materials and highly optimised for their performance play a key role.
- The School of Engineering at the University of Aberdeen is known for its research in civil engineering and has one of the best hydraulic laboratory facilities in Scotland.
Entry Requirements
Qualifications
The information below is provided as a guide only and does not guarantee entry to the University of Aberdeen.
Minimum requirements for this programme are a 2:1 (upper second class) Honours degree in Civil, Mechanical, Automotive, Aerospace, Energy or Structural Engineering, or equivalent.
Those with a 2:2 Honours degree in a relevant Engineering discipline may also be considered if they can demonstrate 2+ years of relevant industry experience and keen motivation.
Please enter your country to view country-specific entry requirements.
English Language Requirements
To study for a Postgraduate Taught degree at the University of Aberdeen it is essential that you can speak, understand, read, and write English fluently. The minimum requirements for this degree are as follows:
IELTS Academic:
OVERALL - 6.5 with: Listening - 5.5; Reading - 5.5; Speaking - 5.5; Writing - 6.0
TOEFL iBT:
OVERALL - 90 with: Listening - 17; Reading - 18; Speaking - 20; Writing - 21
PTE Academic:
OVERALL - 62 with: Listening - 59; Reading - 59; Speaking - 59; Writing - 59
Cambridge English B2 First, C1 Advanced, C2 Proficiency:
OVERALL - 176 with: Listening - 162; Reading - 162; Speaking - 162; Writing - 169
Read more about specific English Language requirements here.
Document Requirements
You will be required to supply the following documentation with your application as proof you meet the entry requirements of this degree programme. If you have not yet completed your current programme of study, then you can still apply and you can provide your Degree Certificate at a later date.
- CV
- an up-to-date CV/Resumé
- Degree Certificate
- a degree certificate showing your qualifications
- Degree Transcript
- a full transcript showing all the subjects you studied and the marks you have achieved in your degree(s) (original & official English translation)
- Personal Statement
- a detailed personal statement explaining your motivation for this particular programme
Aberdeen Global Scholarship
Eligible self-funded postgraduate taught (PGT) students will receive the Aberdeen Global Scholarship. Explore our Global Scholarships, including eligibility details, on our dedicated page.
Aberdeen Global ScholarshipsCareers
There are many opportunities at the University of Aberdeen to develop your knowledge, gain experience and build a competitive set of skills to enhance your employability. This is essential for your future career success. The Careers and Employability Service can help you to plan your career and support your choices throughout your time with us, from first to final year – and beyond.
- More information on employability at the University of Aberdeen
- More information on the Careers and Employability Service
Accreditation
This degree holds accreditation from
Our Experts
- Programme Coordinator
- Dr Vahid Vaziri
Information About Staff Changes
You will be taught by a range of experts including professors, lecturers, teaching fellows and postgraduate tutors. However, these may be subject to change - see our Student Terms and Conditions page.
Get in Touch
Contact Details
- Address
-
Student Recruitment & Admissions
University of Aberdeen
University Office
Regent Walk
Aberdeen
AB24 3FX