Advanced Mechanical Engineering MSc
Coventry, United Kingdom
DURATION
1 up to 2 Years
LANGUAGES
English
PACE
Full time, Part time
APPLICATION DEADLINE
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EARLIEST START DATE
Sep 2025
TUITION FEES
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STUDY FORMAT
On-Campus
Introduction
This course seeks to produce postgraduates with the versatility and depth of understanding to deal with new and unusual challenges in mechanical engineering, alongside the necessary imagination and creativity to innovate.
Course overview
The MSc in Advanced Mechanical Engineering is informed by Coventry University’s commercial and academic research in areas such as durability and reliability, light-weighting, renewable energy technologies of wind and hydropower, advanced simulation and future concepts.
Our collaborative links with industry facilitate a programme of guest speakers (subject to availability) who will share the latest technological advances, issues and trends, as well as provide opportunities to engage with companies on ‘live’ collaborative projects.
Coventry University offers modern facilities in our Engineering and Computing Building. Facilities include a Mercedes AMG Petronas wind tunnel, composites lab, metrology lab, shaker rig, flow lab, engine test cell, automotive workshop, fatigue and tensile testing (Instron), a full-size Harrier Jet, three further simulators, civil engineering specialist testing equipment, a range of Computerised Numeric Control (CNC) machinery and a laser workshop amongst others.
You will have the option to apply for a ‘work placement’ opportunity, designed to further develop your skills and knowledge with the aim of maximising your employability prospects.
Why you should study this course
Coventry University has a long and prestigious automotive, transport and engineering heritage. Our graduates are employed by automotive vehicle and system manufacturers and design professionals all over the world.
- This programme is aimed at both new graduates and experienced engineering professionals who wish to develop advanced skills in thermofluids, metrology, design and technology and engineering simulation and analysis.
- The university’s facilities provide access to a wide range of industry-standard commercial engineering software used for computer-aided design, finite element analysis and computational fluid dynamics. You may have the opportunity to model and analyse engineering systems using stress analysis, heat transfer, dynamics and fluid mechanics.
- Our current strong links with local industry, which include Jaguar Land Rover, Aston Martin, UNIPART, SAIC, Prodrive, Airbus, Tata, GKN, Ricardo and MIRA, may provide opportunities for industry engagement working on actual projects (subject to availability) which may provide the opportunity to put into practice what you learn, through solving real-life problems.
Admissions
Curriculum
You’ll be encouraged to study the principles of engineering, physics and materials science, alongside the design and analysis, modelling and simulation, manufacturing and maintenance of mechanical systems.
The course culminates with your individual project, which provides an opportunity to apply the theories and techniques you have learned during your studies. It may focus on one area of study or involve a combination of subjects.
Past student projects have included the following: development of a computer model of Fiat Punto for pedestrian impact simulation; design of novel bone-implant interface medical devices; analysis of fluid-structure interaction with smoothed particle hydrodynamics and a 3D CFD model analysis of urban air flow around high-rise buildings at the Business Centre of La Défense (Paris).
Your project can be industry-based if you are already working or wish to follow the work placement option. For example, one project commissioned by the US Air Force studied the effect of fatigue and corrosion on the structural integrity of aging aircraft components.
Modules
- Design Principles and Practice
- Engineering Simulation and Analysis
- Wind and Hydro Power Engineering
- Leading Strategic Change through Creativity and Innovation
- Thermofluid Systems
- Stress and Dynamics
- Durability and Reliability of Mechanical Structures
- Project Management
- Integrated Design Project
- Individual Project
With work placement pathway
The ‘With work placement’ opportunity2 enables you to apply in semester 1 for an optional work placement of up to 12 months, extending the duration of your master’s to 24 months. The placement provides an opportunity for you to develop expertise and experience in your chosen field with the aim of enhancing your employability upon graduation. The work placement would take place in semesters 3, 4 and 5.
Please note that the optional placement modules will incur an additional tuition fee of £4,000. Placement opportunities may also be subject to additional costs, visa requirements being met, subject to availability and/or competitive application. Work placements are not guaranteed but you will benefit from the support of the Talent Team in trying to find and secure an opportunity. Find out more about the work placement option.
We regularly review our course content, to make it relevant and current for the benefit of our students. For these reasons, course modules may be updated.
Program Tuition Fee
Career Opportunities
On successful completion, you will have knowledge of:
- The function, materials, manufacture and assembly of a wide range of engineering products.
- The principles of engineering science and mathematics and their application and capability in defining and proving the performance of innovative engineering products.
- Aspects of innovative mechanical design, including the design process, design standards and codes, selection of materials and methods of manufacture.
- Design tools for optimised performance, reliability, weight, cost and sustainability.
- Power generation by wind and hydro renewable resources and by conventional gas turbines.
On successful completion, you will be able to:
- Develop and test strategies for engineering products involving appropriate instrumentation, experimental methods, and data analysis techniques.
- Manage people, processes and engineering projects to promote the commercial success of an engineering enterprise.
- Model and analyse innovative engineering systems using appropriate engineering science and mathematical analysis techniques, such as analysis of aerodynamics, thermodynamic cycles, stress and dynamics.
- Synthesise solutions to innovative engineering design problems.
- Select appropriate instrumentation for the functional design of innovative engineering products and systems and to support development and test work.
- Search for and evaluate information sources to identify information essential to solving engineering problems.
- Use test equipment and machines, including 20% scale model wind tunnel, composites lab, metrology lab, four-pot shaker rig, flow lab, AVL engine test cell, automotive workshop, fatigue and tensile testing (Instron), Modal analysis hardware and software, for experimental work to support product development.
- Use commercial software in the solution of engineering problems, such noise and vibration, aerodynamic drag and lift and stress analysis.
- Communicate graphically the design of a component or system through sketches, CAD etc.
Where our graduates work
Our Engineering master’s courses provide a route into many careers with the global automotive engineering industry. Many of our graduates have gone on to work for ExxonMobil, Airbus, JLR, Bentley, Lotus, Unipart, Aston Martin Lagonda and many OEMs. Others have continued to PHD studies and moved into research.