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    School of Mathematics, Computer Science and Engineering Logo
  • Study Type

    Full time & Part time available

  • Subject Areas


  • Start Date


  • Course Duration

    12 months full-time; 24-28 months part-time

  • Course Type


  • Course Fees


  • Last Updated

    07 October 2019

Develop your knowledge, design and analysis skills, engage with modern challenges in structural engineering and transform your professional profile with this accredited technical MSc in Civil Engineering Structures.

Who is it for?

This course is for professional engineers who want to specialise in structural engineering or move into this area of expertise to advance their career. Normally students have an undergraduate degree in engineering or a related discipline. Students who don’t have qualifications in civil engineering usually have relevant work experience in civil engineering structures so they are familiar with working within the specific technical domain.


From analysing how carbon nanofibers can reduce the effect of corrosion in concrete to gaining insight from experts developing the new Forth Bridge, this MSc in Civil Engineering Structures has been designed to be broad in scope so you can develop your own area of structural engineering expertise.

As a department, we have broad interests from defining new structural forms to practical application of new materials. We believe civil engineering is a creative and collaborative profession, as much as a technical one. This course gives you the tools to immerse yourself in both the analytical and experimental side of the subject, so you can investigate diverse problems to generate your own structural solutions.

The Civil Engineering Structures MSc mirrors industry practice, so you will work in groups with your peers from the first term onwards and learn from a group of world-leading engineers with diverse research strengths. From earthquake engineering to sustainable construction, you have the opportunity to learn in breadth and depth using high-end industry software to develop safe solutions for real-world projects.


This degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired a partial CEng accredited undergraduate first degree. the JBM website for further information.

Academic facilities

There is a large dedicated lab on site equipped with facilities to investigate different structures and construction materials from concrete to timber. You also have access to other workshops where you can liaise with mechanical or electrical engineers to develop innovative scale models. There is access to specialist soil labs and large-scale equipment including wind tunnels.

We have an extensive library housing all the references, journals and codes of practice that you will need during your studies.

As part of the University of London you can also become a member of Senate House Library for free with your student ID card.

Teaching and learning

You will be taught by the staff team within the School of Mathematics, Computer Science and Engineering and also from visiting industry experts from around the world.

Teaching mainly takes the form of lectures, but IT sessions and seminars also form part of the Masters degree. Modules are shared between two ten-week teaching terms running from October to December and January to March. Although work for the MSc dissertation starts during the second term, you will conduct most of the research work during the summer months.

The length of the full-time degree is 12 months. A part-time route is also available where you can spend either two or three years completing the programme. If you follow the two-year part-time study route, you will need to attend lectures for up to two days each week. Alternatively, you can complete the degree over three years by attending a single day each week. The timetable has been designed to offer flexibility for part-time students.

In the first term you will consider core technical topics and be introduced to new concepts such as structural reliability. In the second term you will begin to focus your studies by selecting your dissertation topic and by selecting options getting involved in a specific areas of your own interest. Spread over the year you will have design presentations, class tests and reports.

If you select an experimental dissertation you will have the opportunity to use a range of materials. Skilled technical support is available in the workshop and you have access to recently refurbished facilities, including specialist geotechnical labs which accommodate a large flexible laboratory space used for centrifuge model preparation and testing. Adjacent to this you have concrete mixing and casting facilities, a temperature-controlled soil element testing laboratory and a concrete durability laboratory.


For the theoretical modules, you will be assessed through a combination of examinations and coursework. Examinations are shared between the January and April/May examination periods. For the design-oriented modules you are normally assessed by coursework only, where you will work both in groups and individually on challenging projects.


There are six core modules which give you a strong technical foundation and three elective modules from which you can choose two. These reflect the specialist expertise on offer within the academic team. These modules will give you unique insight into computer analysis of structures for blast and fire, bridge engineering, and earthquake analysis where you may look at techniques for analysing structures and safe design. In the final part of the programme you undertake a dissertation in which you can explore an area of interest from a proposed list of themes, some of which are industry-related.

Core modules

  • EPM717: Advanced Structural Analysis and Stability (20 credits)
  • EPM707: Finite Element Methods (15 credits)
  • EPM704: Dynamics of Structures (15 credits)
  • EPM719: Structural Reliability and Risk (10 credits)
  • EPM711: Design of Concrete Structures (15 credits)
  • EPM712: Design of Steel and Composite Structures (15 credits)
  • EPM949: Dissertation (60 credits)

Elective modules

You will be able to study two of the following elective modules:

  • EPM720: Earthquake Analysis of Structures (15 credits)
  • EPM718: Analysis of Steel and Concrete Structures for Blast and Fire Exposure (15 credits)
  • EPM715: Bridge Engineering (15 credits).

Career prospects

Graduates have secured employment with leading civil engineering consultants, research institutes and government agencies and pursued doctoral studies both in the UK and internationally. The cohort of 2015 have moved on to jobs and further study working within the following organisations:

  • Arup
  • Gant
  • Kier
  • Robert Bird Group
  • Skanska

Visit the Civil Engineering Structures - MSc page on the City, University of London website for more details!





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