Bristol advanced composites phd

There are multiple ways to engage with Bristol Composites Institute; the most frequent ones are covered on the infographic above and in the details below.

And if you have ideas about other collaboration opportunities, please also get in touch. Secondment projects between a couple of weeks and 12 months in duration are available for companies to embed a researcher in the organisation or to second someone into the university.

Our Centre for Doctoral Training works with several industrial partners on building a portfolio of projects that the PhD students can choose from. These PhD programmes take 3 years full-time or 6 years part-time. A great way to work with enthusiastic students while they deliver a technical project for you.

Find out about the internship scheme here. Both our undergraduate and Masters students work on specific projects. We would welcome project proposals from industry so our students could work on real issues that are related to their studies and develop solutions that are valuable for industry. We collect the project ideas towards the end of each year so they are ready for allocation each January. The benefit for the company is to have a well trained researcher with supervision provided by the academic supervisors and other researchers at the university via a part-funded scheme.

Work with us

There are multiple Impact Acceleration funding opportunities available to support collaboration of industry and academia.

Not having the necessary resources in-house can be a show-stopper. We have the knowledge and expertise to explore and find solution to a wide range of challenges, and the experience to build and maintain flourishing relationships with industry. Get in touch with us! The University is keen to promote technology transfer by licensing IP to third parties. There are several spin-out companies who started their work based on our research.

Work with us. Find out about opportunities for visitors here. Secondments and placements Secondment projects between a couple of weeks and 12 months in duration are available for companies to embed a researcher in the organisation or to second someone into the 2nd stimulus payment. Fund a PhD student working on your dedicated project Our Centre for Doctoral Training works with several industrial partners on building a portfolio of projects that the PhD students can choose from.

Summer internships A great way to work with enthusiastic students while they deliver a technical project for you.A measure of the proportion of staff involved in high-quality research in the university. Composite materials are replacing traditional ones at an unprecedented rate due to the global demand for lightweight structures eg in aircraft and automotive industries. The growth in the use of composite materials is expected to be rapid, in the region of per cent each year.

EPSRC Centre for Doctoral Training in Composites Science, Engineering and Manufacturing

The benefits composites offer to functionalise both materials and structures mean they are integral to any design considerations - material cost, fuel efficiency, reduced emissions, improved operational performance and functionality.

The composites sector is contributing significantly to industry developments and advanced composites are critical in enabling lighter, smarter structures and cheaper, more abundant energy. The UK has invested heavily in the science and technology of composite materials, including establishing the National Composites Centre at the University of Bristol.

A highly skilled workforce and technical leadership are required to support the industry. This leadership requires a radical and innovative mindset that encompasses engineering as well as the physical sciences. The development of future composites will require doctoral students with underpinning knowledge of advanced materials science and engineering, and practical experience of the ensuing composites and structures. These highly skilled engineers not only need to understand technical subjects but should also be able to apply acquired knowledge within the context of the modern world.

This CDT produces highly skilled leaders. Core engineering modules lay the foundations and stretch your understanding of core materials, manufacturing and computational analysis, including experimental and theoretical elements of composites engineering and science.

An integrated transferable skills training programme is also included, covering communication, career development and translational research skills. Collaborating with industrial partners eg Rolls-Royce and world-leading international expertise eg University of Limerickproduces an exciting integrated programme enabling you to become a leader in this field. Recent graduates from the programme have gone on to careers in industry eg aerospace, automotive, civil engineering, engineering consultancy and wind energy sectors and academia eg research positions at UK universities.

This section explains how much you will need to pay in tuition fees to study this course at this university. Fees vary by country of residence so make sure you select which country of residence applies to you. These are the tuition fees you pay if you are resident in a country outside the UK that is a member of the European Union.

These are the tuition fees you pay if you are resident in a country outside the UK and the European Union. The university is at the heart of Bristol, a historic, lively and green city in the south-west of England. We help students around the world to research courses, universities and colleges.

We provide information for all of the key parts of university research — including accommodation, fees and sport — to help students make the right choice. Next Steps. Research Quality. Research Intensity. Course Summary. Programme overview Composite materials are replacing traditional ones at an unprecedented rate due to the global demand for lightweight structures eg in aircraft and automotive industries.

Careers Recent graduates from the programme have gone on to careers in industry eg aerospace, automotive, civil engineering, engineering consultancy and wind energy sectors and academia eg research positions at UK universities. Tuition Fees This section explains how much you will need to pay in tuition fees to study this course at this university. England EU International. Students from England These are the tuition fees you pay if you are resident in England.The Engineering Doctorate EngD in Composites Manufacture is a four-year postgraduate research programme, which integrates an industry-based research project with research training in technical subjects, as well as business skills and transferable skills training.

Each EngD research project is designed around the sponsor company's research priorities. EngD students benefit from the use of cutting-edge equipment and expertise at the universities and at the National Composites Centrewhich provides a world-class facility to bridge the gap between research and industrial application.

The IDC aims to provide the UK composites manufacturing industry with EngD graduates who are equipped with the advanced technical and leadership skills required for effective adoption of new knowledge and technologies in composites manufacture. The relevant industry areas include aerospace, automotive, marine, wind energy and construction. 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. Further information on funding for prospective UK, EU and international postgraduate students. EngD students spend 75 per cent of their time at their sponsoring company, carrying out an industrially-focused research project.

Your location is therefore dependent on the sponsor company's location and could be anywhere within the UK. Your remaining time is dedicated to the taught component of the EngD programme. This technical training, which is delivered by the University of Bristol, requires attendance at a number of one-week, master's-level units during the first two years of the programme.

EngD students are supervised by an academic and an industrial supervisor, and are registered at the university of the academic supervisor.

Visit our programme catalogue for full details of the structure and unit content for our EngD in Composites Manufacture.

A first-class honours degree or upper second-class honours degree or international equivalent in engineering, physical science or applied mathematics. See international equivalent qualifications on the International Office website. If English is not your first language, you need to meet this profile level: Profile E 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.

Admissions statement. See the faculty website for more information about faculty research groups. EngD graduates will be ready to apply for chartered status with an appropriate learned institution and are expected to take up leadership positions within the composites manufacturing industry. Professor Janice BartonProfessor of Experimental MechanicsFull-field imaging techniques for strain measurement, assessment and performance of lightweight and composite structures, assessment of joints, development of imaging approaches for structural integrity assessment, large composite structures, defect identification, classification and analysis.

Dr Byung Chul KimLecturer in Composites Design, Processing and Manufactureadhesion science; automated manufacturing; axiomatic design; composite product and manufacturing process design. Dr Andreas EndruweitAssociate Professor, Faculty of Engineeringexperimental characterisation and modelling of processing characteristics of textile reinforcements and simulation of manufacturing processes for polymer composites.

Professor Stephen HallettProfessor in Composite Structures3D woven and textile composites; manufacturing processes to capture deformations and defects; numerical modelling of composites; prediction of mechanical properties. Professor Ian HamertonProfessor of Polymers and Compositesdeveloping polymeric materials with improved performance suitable for use in demanding environments and technologically relevant applications. Dr Dmitry IvanovLecturer in Composites ManufacturingInnovative approaches to composites manufacture and modelling.

Dr James KratzLecturer in Materials Engineeringair entrapment and voids in prepreg processes; honeycomb fabrication; local through-thickness reinforcement by tufting; out-of-autoclave manufacturing; resin flow and cure.

Professor Andrew LongPro-Vice-Chancellor, Professor of Mechanics of Materials NottinghamAutomated manufacturing technologies and process modelling; design and manufacturing of composite components and structures. Dr Antonio MelroSenior Research Associate in Analysis of Reinforced Compositesdesign Tools; numerical modelling; through-thickness reinforcement of composite structures.

bristol advanced composites phd

Professor Ivana PartridgeProfessor of Composites ProcessingComposite process control; polymer-metal-fibre hybridisation; thermoset resin and composite toughening; through thickness reinforcement of composites. Professor Prasad PotluriProfessor of Robotics and Textile Composites Manchester3D textile preforming; developing novel and bespoke preforming machines; modelling textile structures; technical textiles.

Dr Alex SkordosSenior Lecturer in Composites Modelling CranfieldCure kinetics of thermosets; processing of polymer nanocomposites; real-time cure monitoring; simulation and optimisation of composites processing.

Professor Nick WarriorProfessor of Mechanical Engineering NottinghamDesign and manufacturing of directed fibre and high-performance polymer composites for automotive applications. Professor Michael WisnomProfessor of Aerospace StructuresMechanics and failure of fibre-reinforced composites; residual stresses and distortion during manufacturing; understanding of controlling factors and models to predict response. Please contact the Industrial Doctorate Centre directly before making an application online.Imagine shape-changing aircraft, cars or wind-turbines which have thermal management, sensing, actuating and self-repair functionality embedded within their materials and structures.

This is the future, do you want to be part of it? 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 those research areas that interest you most. Towards the end of your first year you will choose your PhD project. The Centre covers a wide range of composites research and technical challenges you might explore include:.

The ACCIS CDT has exceptional industrial links, with many of the six-month and PhD projects offered by industrial partners, providing opportunities to gain valuable experience by working with technical industry experts and through international placements. You will be working in a collaborative and stimulating environment, strengthened by the cohort-driven activities in the first year, where knowledge-sharing and joint problem solving is the norm.

The interdisciplinary nature of the Centre will make you think about problems from a whole new perspective and explore really innovative ideas. On completion of the programme you will leave with far more than just a PhD; you will have the skills, knowledge and acumen to become the future technical leaders in advanced composites, be it in academia or industry. ACCIS has over researchers, many working on industrially relevant projects within the aerospace, wind, marine, and automotive industries.

ACCIS and the NCC work together to engage students, researchers, industry and funders to provide a seamless route for the exploitation of our research, and to enhance opportunities for students and staff. Start date: September Log in to leave a comment. Sign in. Log into your account. Forgot your password? Password recovery. Recover your password. Friday, April 17, Get help. Executive university job — Director of Administration and Strategic Initiatives.Imagine shape-changing aircraft, cars or wind-turbines which have thermal management, sensing, actuating and self-repair functionality embedded within their materials and structures.

This is the future, do you want to be part of it? 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 three-month research project. This experience will enable you to broaden and deepen your core engineering skills and explore those research areas that interest you most.

Towards the end of your first year you will choose your PhD project. The Centre covers a wide range of composites research and technical challenges you might explore include:.

bristol advanced composites phd

The COSEM CDT has exceptional industrial links, with many of the three-month and PhD projects offered by industrial partners, providing opportunities to gain valuable experience by working with technical industry experts and through international placements. You will be working in a collaborative and stimulating environment, strengthened by the cohort-driven activities in the first year, where knowledge-sharing and joint problem solving is the norm.

The interdisciplinary nature of the Centre will make you think about problems from a whole new perspective and explore really innovative ideas. On completion of the programme you will leave with far more than just a PhD; you will have the skills, knowledge and acumen to become the future technical leaders in advanced composites, be it in academia or industry.

BCI has over researchers, many working on industrially relevant projects within the aerospace, wind, marine, and automotive industries. BCI also works closely with the National Composites Centre, which is a wholly owned subsidiary of the University working closely with industry to power the full exploitation of composites opportunities for the UK.

BCI and the NCC work together to engage students, researchers, industry and funders to provide a seamless route for the exploitation of our research, and to enhance opportunities for students and staff. Start date: September For further information please contact: composites-cdt bristol. Show all PhDs for this organisation …. For the best user experience, we recommend viewing jobs. Your Account. Your Account Recruiters. Back to search results.

Placed On: 3rd February Closes: 1st May The Centre covers a wide range of composites research and technical challenges you might explore include: developing novel solutions to enhance composite performance increasing composite functionality; and developing the design methodology and innovative application of 'next generation composite materials'.

Contacts: For further information please contact: composites-cdt bristol.

Automated Fibre Placement Process Optimisation

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bristol advanced composites phd

PhD tools. Join in and follow us. Terms of use Privacy Policy Cookie Policy. About Us Contact Us. Browser Upgrade Recommended.Reviews 13 Write a review. Nov 1, General Rating. Currently, I'm a student of Varna University of Management. Regarding my experience in visiting different kind of business schools, process related to one of my researches, as well as interviewing different students about the policies of their schools, the efficiency of their lectures held, the appropriate assessment of their assignments, and the overall effectiveness of the subjects set in their schedules, I can proudly ascertain that Varna University of Management is the number one business school in Bulgaria.

WeMakeScholars initiative is supported by the Govt. Across a wide range of industrial sectors there is increasing demand for new types of materials with superior properties, so the design and development of advanced high performance composites is crucially important for now and the future.

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 those 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, multi-sectorial industrial links, with many of the six-month and PhD projects offered by our industrial partners, providing opportunities to gain valuable experience by working with technical industry experts and through international placements. The scope of research within the centre covers a wide range of composites research with possible projects being related to:. 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.

Recent graduates from the programme have gone on to enter careers in industry, in the aerospace, automotive, civil engineering, engineering consultancy and wind energy sectors, and careers in academia, taking up post-doctoral Research Assistant positions at a number of UK Universities.

Check further details on University website. Add to compare. Please note that you are sending this email to the University official. If your query is irrelevant, you will never get response. Please do not send them emails about website issues. Rating: Nov 1, Let know that your interested to apply to this course. We won't post on your account without permission. Continue with email. Are you a new user? We're hiring Log in Sign up.

Courier transcripts Articles Events Internships. Click here to resend verification email. Update your status of this course. Interested Applied Admitted Denied.Composite materials are replacing traditional ones at an unprecedented rate due to the global demand for lightweight structures eg in aircraft and automotive industries.

The growth in the use of composite materials is expected to be rapid, in the region of per cent each year. The benefits composites offer to functionalise both materials and structures mean they are integral to any design considerations - material cost, fuel efficiency, reduced emissions, improved operational performance and functionality. The composites sector is contributing significantly to industry developments and advanced composites are critical in enabling lighter, smarter structures and cheaper, more abundant energy.

The UK has invested heavily in the science and technology of composite materials, including establishing the National Composites Centre at the University of Bristol.

A highly skilled workforce and technical leadership are required to support the industry. This leadership requires a radical and innovative mindset that encompasses engineering as well as the physical sciences.

The development of future composites will require doctoral students with underpinning knowledge of advanced materials science and engineering, and practical experience of the ensuing composites and structures. These highly skilled engineers not only need to understand technical subjects but should also be able to apply acquired knowledge within the context of the modern world.

This CDT produces highly skilled leaders. Core engineering modules lay the foundations and stretch your understanding of core materials, manufacturing and computational analysis, including experimental and theoretical elements of composites engineering and science.

An integrated transferable skills training programme is also included, covering communication, career development and translational research skills. Collaborating with industrial partners eg Rolls-Royce and world-leading international expertise eg University of Limerickproduces an exciting integrated programme enabling you to become a leader in this field. Collaborating with industrial partners eg Rolls-Royce and world-leading international expertise eg University of Limerickproduces an exciting integrated programme enabling you to become a leader.

Are you a PG student at this University or have you applied to study a postgraduate program at a university in Europe? Take 2 minutes to sign up to PGS student services and reap the benefits… The chance to apply for one of our 15 exclusive PGS Bursaries Fantastic scholarship updates Latest Postgrad news sent directly to you. No, thanks Yes, I'd like to sign up. Search course database only Browse A-Z of subjects. Summary Composite materials are replacing traditional ones at an unprecedented rate due to the global demand for lightweight structures eg in aircraft and automotive industries.

Full-Time, 4 years started Sep See international equivalent qualifications on the International Office website. Not what you are looking for? Browse other courses in EngineeringAircraft engineering or Automotive engineeringor search our comprehensive database of postgrad programs.

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