Duration of programme: 12 months full-time (6 months taught modules / 6 months individual project)
Start date: October
Intake: Approximately 25 per year
UK and EU students: £5,000 (2013 fee)
International students: £16,375 (2013 fee)
A limited number of scholarships may be available for this programme, subject to the fulfilment of academic and other eligibility criteria. For up-to-date information please visit EAS Fees & Scholarships page
Through the Aston Annual Fund Scholarships, the International Office has two £5,000 scholarships available for successful international applicants. Find out more about the Aston University Postgraduate Taught Masters International Scholarships
Apply for this course online
MSc Programmes Admissions Officer
Tel: +44 (0)121 204 3668
Fax: +44 (0)121 204 3676
Information on visas for international students
The Product Design Enterprise MSc was developed to interest graduates from a business or design background. To enhance knowledge and understanding of the principles underlying professional product design, and enable the student to develop appropriate entrepreneurial skills enabling viable manufacturing, marketing or business enterprises.
The programme requires the student to undertake 10 taught modules and to complete a major project of approximately 15,000 words. Each taught module involves up to 22 contact hours per week, including lectures, tutorials, seminars and project classes. The course will run from October to September with examinations/assessments held in December and March/April. The Research Project explores fully the feasibility of the Major Project, which must be completed by early September. Modules Elective modules (choice of three)
Essential and/or desirable academic qualifications:
- A minimum of a lower second class Honours Degree in product design, engineering, or a business related subject. Graduates with at least two years relevant design work experience are particularly encouraged to apply. Students without such experience may be admitted based on individual merit.
- English Language Requirements (for candidates whose first language is not English):
- A TOEFL score of at least 100 (internet-based) with a minimum score of 23 in Speaking, 22 in Reading and 21 in Writing and Listening.
- An IELTS score of 6.5 overall with no less than 6.0 in each band.
The modules in this programme are delivered with lectures, seminars and lab-based tutorials giving a good balance between scientific methodologies and hands-on practice.
Creativity will underpin much of the interactive work during this course. Developed ideas can be manufactured using a variety of techniques including the use of our range of Rapid – Prototyping equipment.
Modules are assessed mainly through coursework although some modules may also have exams. The major project is assessed by dissertation and supporting design work.
Examples of past major projects range from the development of innovative Rigging for Stunt Kite Boarding, Race Car Suspension using composite technologies with Innovative Designs to the use of Solar Energy to help cool domestic conservatories.
This programme is fully accredited by the Institution of Engineering Designers leading to Chartered Engineering status (CEng).
This programme is suitable for candidates seeking to develop their own product ideas and innovations ‘ready for manufacture and marketing’, start their own design business enterprise, or enter new product development organisations at a higher level of responsibility.
This is an interactive course aimed to develop your knowledge and understanding of the changes, developments and potential opportunities that face us all in a Global economy.
You will create and deliver a major project and develop effective research and specification skills.
Semester 1 modules will enable you to develop the knowledge, skills and expertise required for this level of work, as well as the opportunity to initiate the research for the major project idea.
Semester 2 modules will enable you to extend your professional understanding and expertise through module coursework, individual projects and teamwork.
You will also make several individual presentations and get chance to hone your interview techniques.
Much of the teaching and learning in the Programme take place in the Design Suite or CAE facility which have the latest commercial Computer Aided Design tools (e.g. Solid works, Fluent, Ansys).
Lecture rooms are equipped with modern AV/IT facilities which aid CAE teaching.
Modelmaking and Engineering Workshops are available to develop physical models and prototypes. This includes a range of specialist rapid prototyping equipment as well as dynamic testing equipment. This equipment can help in the testing of prototype ideas.
Our excellent learning resources have up-to-date texts and publications with a large selection available in the library electronically.
Programme Director Product Design BA Industrial Design
Chris Evans has been a design educationalist since 1989. His strong interest in Industrial Design education is underpinned by 20 years of professional work designing and managing within leading manufacturing organisations. These include Mettoy Ltd (Corgi: die-cast toys); Ogle Design Consultancy (toys, consumer electronics, transport systems); Prestige plc (kitchen cookware); Crown House Tableware (glass, ceramics) and Hasbro Europe (toys). Although Arts School trained, Chris believes that design students must combine their creativity skills and innovative flair with appropriate engineering and technological knowledge plus have an effective understanding of markets and the real user requirements.
He joined Aston University in 2001 having previously created and led highly successful Product, Industrial, Interior and
Graphic design courses in other universities.
Professor Geoff Tansley
PhD CEng FIMechE
Professor of Mechanical Engineering
Prof Tansley developed his engineering modelling skills through industrial consulting, research projects in universities, and as Chief Mechanical Engineer in an Australian Medical device company where he led modelling and manufacture of an artificial heart.
Prof Tansley has expertise is in computational fluid dynamics of blood flow and in the design and development of implantable medical devices; his current research projects include an aortic balloon pump, a rotary blood pump and blood cell dynamics in Couette flow. Dr Philip Davies
Senior Lecturer in Mechanical Engineering
Philip Davies is a member of the Sustainable Environment Research Group. His main research activities are in developing renewable and efficient energy systems and in the treatment of water for drinking and sanitation. Philip has held appointments at the University of Oxford, the Universidad Politécnica in Madrid, the University of Warwick, and in manufacturing and consulting companies. He holds a B.Sc in Mechanical Engineering from Imperial College, London, and D.Phil from the University of Oxford. Dr. Gareth Thomson
Lecturer in Mechanical Engineering
Dr. Mark Prince
Lecturer in Mechanical Engineering
Mark is a former Aston graduate with experience in mechanical design and analysis. His research interests are in ophthalmic and medical device development and he has experience in designing microsystems for biological structure interfacing, and exploiting vision technologies. Mark has expertise in 3D computer solid modelling, rapid prototyping and rapid manufacture, computer aided engineering, electronic/mechatronic design, and optical and contact microscopy and imaging techniques.