Advanced Composites (EPSRC Centre for Doctoral Training)Find a programme
|Programme length||Four years full-time|
|Location of programme||Clifton campus|
|Part-time study available||No, full-time only|
|Start date||September 2018|
There is increasing demand across a wide range of industrial sectors for new types of materials with superior properties, so the design and development of advanced high-performance composites is crucially important, both for now and for the future. The EPSRC Centre for Doctoral Training in Advanced Composites for Innovation and Science offers students with outstanding potential across engineering, science and mathematics the chance to participate in cohort-driven training in composite materials and structures technologies and undertake cutting-edge research.
You will participate in a four-year, fully-funded programme. The rewarding first year includes a stimulating series of seminars and lectures, a unique hands-on group project to design, build and test a composite structure and an individual six-month research project. This experience will enable you to broaden and deepen your core engineering skills and explore the research areas that interest you most. Towards the end of your first year you will choose your PhD project.
The centre engenders a collaborative work environment, strengthened by the cohort-driven activities in the first year, which encourages knowledge-sharing and joint problem-solving, creating an inspiring and motivating atmosphere.
The centre has exceptional industrial links across a variety of sectors, with many of the six-month and PhD projects offered by our industrial partners. This provides an opportunity to gain valuable experience by working with technical industry experts and through international placements. Previous placements have included NASA Langley Research Center, Caltech, Sandia National Laboratories and University of Illinois at Urbana-Champaign.
The scope of research within the centre covers a wide range of composites research; possible projects are related to:
- morphing structures for aircraft, cars and marine craft
- multifunctional materials, with embedded functionality for thermal management, sensing, actuation and self-repair
- innovative manufacturing solutions.
On completion of the programme you will leave with far more than just a PhD qualification; you will have the skills, knowledge and acumen to become one of the future technical leaders in advanced composites, be it in academia or industry.
Fees for 2018/19
We charge an annual tuition fee. Fees for 2018/19 are as follows:
- UK/EU: full-time
- Overseas: full-time
- Channel Islands/Isle of Man: full-time
Fees are subject to an annual review. For programmes that last longer than one year, please budget for up to a five per cent increase in fees each year. Find out more about tuition fees.
University of Bristol students and graduates can benefit from a ten per cent reduction in tuition fees for postgraduate study. Check your eligibility for an alumni scholarship.
Funding for 2018/19
Enhanced EPSRC studentships covering fees and living costs are available to UK/EU students.
Further information on funding for prospective UK, EU and international postgraduate students.
- A range of core and optional taught units
- Group design, build and test project
- Individual six-month research project
- Transferable skills training and public engagement activities
- PhD research project
- International placement opportunity
- Transferable skills training and public engagement activities
Visit our programme catalogue for full details of the structure and unit content for the first year of the Advanced Composites CDT programme.
An upper second-class degree in a relevant subject (or equivalent qualification).
See international equivalent qualifications on the International Office website.
English language requirements
If English is not your first language, you need to meet this profile level:
Further information about English language requirements and profile levels.
Read the programme admissions statement for important information on entry requirements, the application process and supporting documents required.
All CDT students are based in the ACCIS research group, which is within the Faculty of Engineering and has links to the Faculties of Science and Health Sciences. The vision of ACCIS is to be a world-leading centre for composites research, combining cutting-edge fundamental science with strong industrial links for exploitation and technology transfer. It is a focus for collaboration - internally, nationally and internationally - and led the establishment of the UK National Composites Centre.
Recent graduates from the programme have gone on to careers in industry (eg the aerospace, automotive, civil engineering, engineering consultancy and wind energy sectors) and academia (such as taking up post-doctoral research assistant positions at a UK university).
Professor Ian Bond BSc, PhD(Bath), (Professor, Head of the Queen's School of Engineering), Development of novel and multifunctional composite materials.
Professor Stephen Eichhorn BSc(Leeds), MSc(Manchester), PhD(Manchester), (Professor), Natural fibres, nanocellulose, nanocomposite materials, stress and strain sensing using spectroscopy, sustainable materials, multifunctional materials (eg energy storage, structural colour)
Dr Ian Farrow BSc(Soton), PhD(CranIT), (ACCIS CDT Teaching Co-ordinator, Senior Lecturer), Design of composite structures.
Professor Stephen Hallett BSc(Cape Town), DPhil(Oxon), (Professor), Mechanics of composite materials and structures, numerical and experimental aspects of manufacture and failure.
Dr Ian Hamerton BSc(Sur), PhD(Sur), (ACCIS CDT Deputy Director and Research Co-ordinator, Reader), High performance polymers and composites, smart materials and structures, multifunctional nano composites, polymer stabilisation and degradation, molecular modelling, flame retardant materials.
Dr Paul Harper MEng, PhD, MSc, (Lecturer), Design and analysis of composite structures, renewable energy systems.
Dr Dmitry Ivanov BSc(Perm), PhD(Leuven), (Lecturer), Innovative approaches to composites manufacture and modelling.
Dr Luiz Kawashita BEng, PhD(Lond), (Lecturer), Composite failure mechanisms and numerical modelling.
Dr BC(Eric) Kim BEng, MSc, PhD(KAIST), (Lecturer), Composite product design, automated fibre placement, axiomatic design, computer-aided design, experimental mechanics.
Dr James Kratz BEng(Carleton), MEng(McGill), PhD(McGill), (Lecturer), Thermochemical properties of epoxies, in-process measurement of composites, sustainable manufacturing
Dr Matthew O'Donnell BSc, MSc, PhD (Bristol), (Lecturer), Structural optimisation, rapid analysis techniques, non-symmetric laminates, tailoring non-linear elasticity.
Professor Ivana Partridge BA, MA(Cantab), PhD(CranIT), (IDC Director, Professor), Toughening of polymers and composites, thermoset cure, through-the-thickness reinforcement of composites.
Dr Alberto Pirrera MSc(Palermo), PhD, (Lecturer), Structural analysis, design and optimisation, shell structures, wind turbine blades, morphing, buckling and post-buckling.
Professor Kevin Potter PhD, CEng, BSc, (Professor), Composites manufacturing, reinforcement deformation, dimensional variability, defect generation.
Professor Fabrizio Scarpa Laurea, PhD(Torino), (Professor), Auxetic materials, smart materials and structures, morphing structures, multidomain design of components, damping technologies, nanostructures.
Dr Mark Schenk MSc(Delft), PhD(Cantab), (Lecturer), Structural analysis, deployable structures, morphing structures.
Dr Valeska Ting BSciTech (Victoria University of Wellington), PhD (Australian National University), (Reader), Smart, functional nanomaterial composites, porous composite materials.
Dr Carwyn Ward BEng(Hons), MRes(Swan), PhD(Bristol), (Lecturer), Composites manufacture, automation for composites, factory processes/operations, process optimisation, costs, recycling, assembly & repair.
Professor Paul Weaver BSc, PhD(N'cle), (ACCIS CDT Director, Professor), Composite plates and shells, buckling, cellular structures and morphing composites, stiffness tailoring.
Professor Michael Wisnom BSc(Lond), PhD(Bristol), MIMechE, (ACCIS CDT Chair, Director of ACCIS, Professor), High performance ductile composites, failure mechanisms, predicting the behaviour of composite structures and materials.
Dr Ben Woods BS(Maryland), MS(Maryland), PhD(Maryland), (Lecturer), Compliant morphing aerostructures, composite truss structures, novel composite manufacturing methods, adaptive structures, actuators, human powered flight, design optimisation.
Find out more about becoming a student at Bristol, applying for a visa and the support we offer to international students.
REF 2014 results
- 38% of research is world-leading (4 star)
- 55% of research is internationally excellent (3 star)
- 6% of research is recognised internationally (2 star)
- 1% of research is recognised nationally (1 star)
Results are from the most recent UK-wide assessment of research quality, conducted by HEFCE. More about REF 2014 results.
The Bristol Doctoral College facilitates and supports doctoral training and researcher development across the University.
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EPSRC Centre for Doctoral Training in Advanced Composites for Innovation and Science
University of Bristol
Bristol BS8 1TR http://www.bristol.ac.uk/composites/cdt/