Materials scientists are at the forefront of new technology, pushing forward the boundaries of science and engineering with designers and engineers of every discipline. Research and development produce new materials to meet the demands of modern technology. For instance, metals grown from single crystals for advanced engines are making air travel safer. More durable plastic and glass components for mobile 'phones, make them thinner and lighter. Team GB won 7 out of 10 golds in cycling at the 2012 Olympics using bicycles made from advanced carbon fibre materials.
Our School and the Interdisciplinary Research Centre in Materials Processing together make up the largest centre for materials research in the UK. We work on a diverse range of projects in the aerospace, automotive, biomedical, sport and sustainable development fields. Join us, and become part of an academic elite designing a safer, more sustainable and brighter future!
Please be reassured that the vote to leave the European Union does not mean there will be any immediate material change to the UK university sector's participation in EU programmes such as Erasmus and study abroad programmes. Visit our EU Referendum information page for more information.
MEng Materials Engineering
“When I joined the course I didn’t really know where it would lead me in my future career, however, as the course has progressed I have found that there are so many applications to what I am learning and I am really enjoying the subject. I also love the fact that the university is campus based which really gives a student-vibe to the area. It’s also very close to the city centre which means you get the best of both worlds in my point of view.”
Materials Scientists and Metallurgists are helping to solve key issues facing the world in energy, transport and healthcare. Our programmes in Metallurgy and Materials provide an understanding of how materials behave and how we can develop and use them to make the products we experience – from bricks to bridges to body scanners.
We use our understanding of materials at the atomic and microscopic levels to design, for example, new types of medical implants, new alloys and production methods for more energy-efficient engines, and better sports equipment to allow athletes to safely perform at their maximum levels.
Interested in Computer Science?
Year in Computer Science' offers students from non-computing disciplines the chance to gain in-depth knowledge of computing and enhance their work-based skills through the study of Computer Science.
Our programmes share a common first two years, with lectures, practicals and case studies developing your understanding in all areas of materials. These are related to applications such as aerospace, automotive, sports, IT and biomedicine. You’ll also study how to apply maths to solve engineering problems – a key requirement for many employers.
- Fundamentals of Materials Science - 20 credits
- Design for Structural Applications - 20 credits
- Non-crystalline Materials 1 - 20 credits
- Design for Functional Applications 1 - 20 credits
- Communication and Critical Reasoning - 20 credits
- Mathematics - 20 credits
- Physical Materials Science - 20 credits
- Fracture, Fatigue and Corrosion - 20 credits
- Modelling Materials Behaviour - 20 credits
- Non-crystalline Materials 2 - 20 credits
- Design for Functional Applications 2 - 20 credits
- Forefront of Materials Science and Engineering A - 10 credits
- Forefront of Materials Science and Engineering B - 10 credits
The third and fourth years advance your understanding of design, processing, failure and applications, along with management, whilst options allowing you to gain specialist materials knowledge in areas that interest you most, such as aerospace, sports and biomaterials. You also take part in a multidisciplinary project.
- High Performance Materials and Advanced Manufacturing - 20 credits
- Advanced Failure Analysis and Characterisation - 20 credits
- Group project - 20 credits
- Materials for Challenging Environments - 20 credits
Choose 40 credits. Example optional modules:
- Advanced Electronic Materials - 10 credits
- Advanced Materials in Sports Equipment - 10 credits
- Biomaterials - 10 credits
- High Toughness Ceramics - 10 credits
- Process Metallurgy - 10 credits
- Individual Research Project - 40 credits
- Forensic Study - 20 credits
- Materials Modelling - 10 credits
- Self-sensing Materials - 10 credits
Choose 40 credits. Example optional modules:
- Irradiation Materials Science - 10 credits
- Advanced Polymer Systems - 10 credits
- Electron Microscopy - 10 credits
- Nuclear Fuel Cycles, Life Extension and Nuclear Waste - 10 credits
- Surface Engineering - 10 credits
- Materials for Sustainable Environment Technoology - 10 credits
Please note: The modules listed on the website for this programme are regularly reviewed to ensure they are up-to-date and informed by the latest research and teaching methods. Unless indicated otherwise, the modules listed for this programme are for students starting in 2019. On rare occasions, we may need to make unexpected changes to core modules; in this event we will contact offer holders as soon as possible to inform or consult them as appropriate.
Annual tuition fees 2019/20
tuition fees page for more information.
At Birmingham we ensure that fears about finance do not constrain prospective students from considering university and that excellence is rewarded.
- Number of A levels required:
- Typical offer:
- Required subjects and grades:
- A level Mathematics and one A level from Physics, Chemistry or Design and Technology. You must also pass the practical element of any reformed science A levels which include Biology, Chemistry and Physics taught from 2015.
General Studies not accepted, but a good performance may be taken into account if you fail to meet the conditions of the offer.
International Baccalaureate Diploma
6,6,6 at Higher Level, including Mathematics and either Physics, Design Technology or Chemistry, with a minimum of 32 points overall.
Only considered when combined with other qualifications.
Other qualifications are considered – learn more about entry requirements.
Would you like to study for one of our degrees but lack the entry qualifications we require? Consider a Foundation Year programme which can lead to entry onto one of our courses.
Standard English language requirements apply, learn more about
international entry requirements.
International students applying for this programme will need an Academic Technology Approval Scheme (ATAS) certificate from the Foreign & Commonwealth Office before the University can issue you with a Certificate of Acceptance of Studies (CAS). We recommend that you apply for your ATAS certificate as soon as you receive an offer from us. More information can be found here: www.fco.gov.uk/en/about-us/what-we-do/services-we-deliver/atas/.
Depending on your chosen course of study, you may also be interested in one of our foundation pathways, which offer specially structured programmes for international students whose qualifications are not accepted for direct entry to UK universities. Further details can be found on Birmingham International Academy web pages.
Apply through the UCAS website using code F2H1
UCAS (Universities and Colleges Admissions Service) is a UK organisation responsible for managing applications to university and college.
View advice on '
How to apply for undergraduate courses', including advice for UK, EU and overseas applicants.
You will be taught by a mixture of professors, doctors and postgraduates, thereby receiving a rich diversity of academic knowledge and experience.You can find out more about the members of staff in the School of Metallurgy and Materials where you can read about their qualifications, publication history and specific areas of interest.
As a Birmingham student you are part of an academic elite and will learn from world-leading experts. At Birmingham we advocate an enquiry based learning approach, from the outset you will be encouraged to become an independent and self-motivated learner, qualities that are highly sought after by employers. We want you to be challenged and will encourage you to think for yourself.
Your learning will take place in a range of different settings, from scheduled teaching in lectures and small group tutorials, to self-study and peer group learning (for example preparing and delivering presentations with your classmates).
To begin with you may find this way of working challenging, but rest assured that we'll enable you to make this transition. You will have access to a comprehensive support system that will assist and encourage you, including personal tutors and welfare tutors who can help with both academic and welfare issues. You will be able to talk to your tutors about this and discuss if there are particular areas where you need support.
What you can expect
You can expect an average of about 20-25 hours of contact time per week, comprising approximately 5 hours of laboratory based activity, 14 hours of lectures and 4 hours of small-group teaching (tutorials). As you progress through the programme, an increasing amount of time will be devoted to project-based learning
At the start of your degree, you will be assigned a Personal Tutor who will remain with you throughout your studies to help you in three important areas: supporting your academic progress, developing transferable skills and dealing with any welfare issues.
Delivery of the course
In your first and second years, the course is delivered as lectures, small group workshops, laboratories, computer-based activities, enquiry-based learning and tutorials. A strong emphasis is placed on design and research project work in your third and fourth years respectively.
Laboratory-based practical work forms an integral part of the School's degree programmes. Laboratory classes are embedded within a module and used, not only to develop your experimental practical skills, but also to reinforce concepts introduced in lectures or to explore a particular phenomenon. First year practical sessions, typically, last two hours and increase in length in subsequent years to allow for more advanced experiments.
Small-group tutorials/personal tutorials run alongside the lecture course, addressing any individual problems you may have and allowing you to consolidate the lecture material, as well as test your understanding through problem-solving exercises.
Enquiry Based Learning (EBL) provides an environment where your learning process is driven by enquiry and the lecturer's role is purely as a facilitator. EBL is typically a group activity.
This requires working in a team and you can be assessed in a variety of ways: in either a group or individually, by written reports and/or oral presentations. EBL will give you a research-orientated approach to a problem, and has a synergy within research-led institutions like the University of Birmingham.
Project work: A strong emphasis is placed on project work in your final year. The range of projects includes practical work in the laboratory, or computer-based projects. You can choose the topic of your project from a pool of titles and work with your project supervisor to tailor the project to your particular research interests.
The course modules are taught through lectures, tutorial problem classes, case studies, laboratory and/or project work. You will be assessed through a mixture of written examinations and continually assessed coursework. Examinations are taken in May and June.
Assessment methods used include end-of-year examinations, written assignments, and oral presentations, computer-based tests, laboratory and project reports. Each module is assessed independently and most contain some components of continuous assessment, which usually account for 15% to 40% of the marks. Some modules are completely assessed by either examination or coursework.
We place strong emphasis on providing prompt and informative feedback on all pieces of work that you submit during your studies. Feedback comes in a variety of forms, including written feedback on pieces of assessment, class feedback sessions and one-on-one discussions with your tutors. In all cases, the feedback will highlight the good points as well as those areas that require more attention.
As your degree progresses, you will attend fewer lectures and perform more independent studies and practical work in preparation for your final year project.
During your first year the University will require you to undergo a formal 'transition' review, mentioned above, to see how you are getting on and if there are particular areas where you need support. This is in addition to the personal tutor who is based in the School and can help with any academic issue you encounter. Our Academic Skills Centre also offers you support with your learning. The centre is a place where you can develop your mathematical, academic writing and general academic skills. It is the centre?s aim to help you to become a more effective and independent learner through the use of a range of high-quality and appropriate learning support services. These range from drop-in sessions with support with mathematics and statistics based problems provided by experienced mathematicians, to workshops on a range of topics including note taking, reading, writing and presentation skills.
At the beginning of each module, you will be given information on how and when you will be assessed for your particular programme of study. You will receive feedback on each assessment within four weeks, so that you can learn from and build upon what you have done. You will be given feedback on any exams that you take; if you should fail an exam, we will ensure that particularly detailed feedback is made available to enable you to learn for the future.
Preparing for your future career should be one of the first things you think about as you start university. As one of our Materials students, exciting career choices will open up to you when you graduate with an accredited degree such as this. You could pursue a career in one of the automotive, aerospace or energy sectors; one of the manufacturing industries; or you could work in other areas of science and technology, such as materials testing or failure analysis. Other areas that favour the problem-solving skills you will acquire are finance, law and marketing as well as teaching and/or research.
Superb opportunities exist for you to gain industrial experience before you graduate. You will gain relevant work experience, and earn money putting into practice the skills and knowledge gained from your degree. Students on placement get involved in serious projects which ask difficult questions that require good engineering answers - and which often lead to sponsorship and/or the offer of a graduate job.
Another option is to join our MEng programme with industrial experience and spend up to six months with one of our industrial partners; usually between your third and fourth study years.
A rich vein of expertise will be available for you to tap into, not only through the University's dedicated Careers Network, but from the School's own industrial liaison officer. From these careers professionals you will gain the skills to help you secure a range of placements from vacation jobs to, eventually, your graduate job.
At School-level, you can opt to add a year to your programme, whatever the course you are studying, and spend this time on placement in industry. You will gain relevant work experience, and earn money putting into practice the skills and knowledge gained from your degree. Students on placement get involved in serious projects which ask searching questions that require good engineering answers - and which often lead to sponsorship and/or the offer of a graduate job. On successful completion of a placement in industry organised by the School, and success in your studies, you will be awarded the Certificate in Industrial Studies to add to your degree and improve your employability prospects.
At University-level, our unique careers guidance service is tailored to academic subject areas, offering a specialised team (in each of the five academic colleges) who can give you expert advice. Our team sources exclusive work experience opportunities to help you stand out amongst the competition, with mentoring, global internships and placements available to you. Once you have a career in your sights, one-to-one support with CVs and job applications will help give you the edge. In addition, our employer-endorsed award-winning Personal Skills Award (PSA) recognises your extra-curricular activities, and provides an accredited employability programme designed to improve your career prospects.
We also offer voluntary work which complements your studies by helping you gain practical experiences in occupational settings while contributing back to society. This can bring new skills that will be useful throughout your future and can make a positive impact on your learning whilst at university. Volunteering enables you to develop skills such as communication, interpersonal skills, teamwork, self-confidence and self-discipline all of which can be transferred into your studies.
Whichever of the above forms of careers guidance, or combination of such, you select you will find your prospects for employment after graduation considerably enhanced. If you make the most of the wide range of careers advice we can offer, you will be able to develop your career from the moment you arrive.
Career destinations of previous graduates include:
Jaguar Land Rover,
The graduate employment market is competitive, many employers require evidence of employability or being ready for the world of work.
Internships represent a great way for you to gain experience of the workplace. They also offer employers the opportunity of clarifying what they are looking for and perhaps even assessing interns for future employment.
We offer our students the opportunity of internship placements during their time at Birmingham.
The video below talks to students, staff and employers about their internship experience:
University Careers Network
Preparation for your career should be one of the first things you think about as you start university. Whether you have a clear idea of where your future aspirations lie or want to consider the broad range of opportunities available once you have a Birmingham degree, our Careers Network can help you achieve your goal.
If you make the most of the wide range of services
you will be able to develop your career from the moment you arrive.
Visit the careers section of the University website for further information.
Birmingham has transformed into one of Europe's most exciting cities. It is more than somewhere to study; it is somewhere to build a successful future.
Clubs and societies
The Guild has over 200 Societies, community volunteering groups and associations for you to join; they cover every topic and activity that you can think of - there really is something for everyone.
Materials Society is the society for the School of Metallurgy
and Materials, you may also be interested in the Nuclear
Coming to Birmingham might be your first time living away from home. Our student accommodation will allow you to enjoy your new-found independence in safe, welcoming and sociable surroundings.
The City of Birmingham
One of Europe's most exciting destinations, Birmingham is brimming with life and culture, making it a wonderful place to live, study and work.
Our students fall in love with the city - around 40% of our graduates choose to make Birmingham their home.
The University of Birmingham has been welcoming international students onto our campus since 1900.
We have one of the largest and most vibrant international student communities in the UK, with 5,000 international students from more than 150 different countries and 31% of our academic staff from overseas.
If you would like further information about entry requirements, how to apply and funding options, then you can visit our international students webpage. You may also wish to take a virtual tour of our campus and watch the video below to hear our international students say their favourite thing about the University of Birmingham.