Course summary
Much has been made of the use of composite materials in the aerospace industry with the Airbus A350XWB and the Boeing Dreamliner being headline news. However the advantages of using composite materials can be extended to the majority of engineering areas and disciplines. The rapid emergence of composites has revealed a difficulty in supplying the industry with Engineers that have the requisite knowledge of the materials. This MSc in Composite Material Engineering has been developed with that in mind. Students will learn the full lifecycle of components designed and manufactured with composites. From first principles, potential students will learn the constituent parts of a composite material and understand the reasons for selecting each material. From there manufacturing methodologies will be understood. Design using composites will be taught after the different types of failure mechanisms are shown. Finally repair, recycling and disposal of composites will be discussed in detail. Students will be taught by lecturers from industrial and research background through a combination of lectures, tutorials, Laboratory sessions and computer classes. Industry standard software will be taught to enable the students to graduate with the skills required for industry.
Modules
FULL-TIME STUDY (SEPTEMBER INTAKE) The taught element, Part One, of the programmes will be delivered in two 12 week trimesters and each trimester has a loading of 60 credits. You will cover six taught modules which include lectures, tutorials and practical work on a weekly basis. The expected timetable per module will be a total of 200 hours, which includes 40 hours of scheduled learning and teaching hours and 160 independent study hours. Part Two will then take a further 15 weeks having a notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor. FULL-TIME MODE (JANUARY INTAKE) For the January intake, students will study the three specialist modules first during the second trimester from January to May. The three core modules will be studied in the first trimester of the next academic year from September to January. On successful completion of the taught element of the programme the students will progress to Part Two, MSc dissertation to be submitted in April/May. PART-TIME MODE The taught element, part one, of the programmes will be delivered over two academic teaching years. 80 credits or equivalent worth of modules will be delivered in the first year and 40 credits or equivalent in the second year. The part time students would join the full time delivery with lectures and tutorials/practical work during one day on a weekly basis. The dissertation element will start in trimester 2 taking a further 30 weeks having a total notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor. AREAS OF STUDY INCLUDE: Engineering Research Methods & Postgraduate Studies Engineering Design & Innovation Engineering Systems Modelling & Simulation Advanced & Composite Materials Design with Composites Assembly and Repair of Composites Dissertation The information listed in this section is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal academic framework review, so may be subject to change.
Assessment method
You will be assessed throughout your course through a variety of methods including portfolios, presentations and, for certain subjects, examinations.
Entry requirements
An honours degree with at least a 2:2 classification or equivalent in an appropriate engineering discipline or relevant professional experience.
Fees and funding
Tuition fees
England | £5940 | Whole course |
Northern Ireland | £5940 | Whole course |
Scotland | £5940 | Whole course |
Wales | £5940 | Whole course |
International | £12500 | Whole course |
Additional fee information
Provider information
Wrexham University
Plas Coch
Mold Road
Wrexham
LL11 2AW