Course summary
Mechanical engineering combines scientific principles, mathematics, and realisation to design, develop and implement innovative solutions to contemporary problems. This programme will enhance your skills and provide you with advanced subject knowledge to accelerate your engineering career. From designing replacement hip joints and hospital MRI scanners, to developing autonomous vehicles and monitoring the structural health of offshore windfarms, mechanical engineering contributes greatly to contemporary life and is central to the innovation carried out in many industries. Accredited by the Institution of Mechanical Engineers (IMechE), our MSc Advanced Mechanical Engineering programme comprises of advanced topics in mechanical engineering and industry linked project work. You will benefit from the teaching of some of the world’s experts in their fields, a state-of-the-art working environment, and networking opportunities to enhance your career prospects. Over the course of the year, you will study six taught modules and undertake a major individual project. These will provide you with advanced knowledge while allowing you to develop your specialist skills, which will enable you to take advantage of the many senior engineering and technology employment opportunities available at home and abroad. You will become familiar with stress analysis, finite element analyses and modelling; renewables including wind, tidal and hydro-power; mechanisms and mechanical design; control and self-learning systems; systems analysis, advanced materials and manufacturing, application of artificial intelligence in engineering, among other topics. At the same time, you will develop capabilities that are highly valued by employers more generally, such as problem-solving, analytical skills and team-working abilities. A major element of the programme is a dissertation project during which you will undertake independent research and receive one-to-one supervision from an academic specialist, and possibly be working with one of our industry partners. During this project, you will bring together everything that you have learnt and apply it to an advanced individual project. This will allow you to practise your skills and demonstrate your professional competences, thereby improving your employability. These projects have led to employment for many graduates and recent examples include:
- Control design for a mobile robot used for nuclear decommissioning tasks
- Fire resistance of FRP-concrete columns
- Wave powered eddy current heat generator for seawater desalination technologies
- Improved solar thermal systems
Modules
Modules may include: Design and modelling of systems; renewable energy; mechanics and actuators; intelligent system control; advanced CAD/CAM; linking project; dissertation
Entry requirements
2:1 (Hons) degree (UK or equivalent) in Mechanical Engineering or related disciplines, or in Physics. We may also consider non-standard applicants at a 2:2 degree level when accompanied by significant experience in a relevant field. For UK applicants, a HND or equivalent together with appropriate industrial experience may be considered. Please contact us for further information.
Fees and funding
Tuition fees
No fee information has been provided for this course
Tuition fee status depends on a number of criteria and varies according to where in the UK you will study. For further guidance on the criteria for home or overseas tuition fees, please refer to the UKCISA website .
Additional fee information
Provider information
Lancaster University
Bailrigg
Lancaster
LA1 4YW