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Masters Degrees (Fatigue)

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Structural Design aims to provide an understanding of aircraft structures, airworthiness requirements, design standards, stress analysis, fatigue and fracture (damage tolerance) and fundamentals of aerodynamics and loading. Read more

Course Description

Structural Design aims to provide an understanding of aircraft structures, airworthiness requirements, design standards, stress analysis, fatigue and fracture (damage tolerance) and fundamentals of aerodynamics and loading. The suitable selection of materials, both metallic and composite is also covered. Manufacturers of modern aircraft are demanding more lightweight and more durable structures. Structural integrity is a major consideration of today’s aircraft fleet. For an aircraft to economically achieve its design specification and satisfy airworthiness regulations, a number of structural challenges must be overcome. This course trains engineers to meet these challenges, and prepares them for careers in civil and military aviation.

Overview

This course is suitable for students with a background in aeronautical or mechanical engineering or those with relevant industrial experience.

The Structural Design option consists of a taught component and an individual research project.

In addition to management, communication, team work and research skills, each student will attain at least the following outcomes from this degree course:
- To build upon knowledge to enable students to enter a wide range of aerospace and related activities concerned with the design of flying vehicles such as aircraft, missiles, airships and spacecraft
- To ensure that the student is of immediate use to their employer and has sufficient breadth of understanding of multi-discipline design to position them for accelerated career progression
- To provide teaching that integrates the range of disciplines required by modern aircraft design
- To provide the opportunity for students to be immersed in a 'Virtual Industrial Environment' giving them hands-on experience of interacting with and working on an aircraft design project.

English Language Requirements

If you are an international student you will need to provide evidence that you have achieved a satisfactory test result in an English qualification. The minimum standard expected from a number of accepted courses are as follows:

IELTS - 6.5
TOEFL - 92
Pearson PTE Academic - 65
Cambridge English Scale - 180
Cambridge English: Advanced - C
Cambridge English: Proficiency - C

In addition to these minimum scores you are also expected to achieve a balanced score across all elements of the test. We reserve the right to reject any test score if any one element of the test score is too low.

We can only accept tests taken within two years of your registration date (with the exception of Cambridge English tests which have no expiry date).

Core Modules

The taught programme for the Structural Design masters is generally delivered from October to March. After completion of the four compulsory taught modules, students have an extensive choice of optional modules to match specific interests.

Core:
- Fatigue Fracture Mechanics and Damage Tolerance
- Finite Element Analysis (including NASTRAN/PATRAN Workshops)
- Design and Analysis of Composite Structures
- Structural Stability

Optional:
- Loading Actions
- Computer Aided Design (CAD)
- Aircraft Aerodynamics
- Aircraft Stability and Control
- Aircraft Performance
- Detail Stressing
- Structural Dynamics
- Aeroelasticity
- Design for Manufacture and Operation
- Initial Aircraft Design (including Structural Layout)
- Airframe Systems
- Aircraft Accident Investigation
- Crashworthiness
- Aircraft Power Plant Installation
- Avionic System Design
- Flight Experimental Methods (Jetstream Flight Labs)
- Reliability, Safety Assessment and Certification
- Sustaining Design (Structural Durability)

Individual Project

The individual research project aims to provide the training necessary for you to apply knowledge from the taught element to research, and takes place from January to September.

Recent Individual Research Projects include:
- Review, Evaluation and Development of a Microlight Aircraft
- Investigation of the Fatigue Life of Hybrid Metal Composite Joints
- Design for Additive Layer Manufacture
- Rapid Prototyping for Wind Tunnel Model Manufacturing.

Group project

There is no group project for this option of the Aerospace Vehicle Design MSc.

Assessment

Taught modules (20%); Individual Research Project (80%)

Career opportunities

The AVD option in Structural Design is valued and respected by employers worldwide. The applied nature of this course ensures that our graduates are ready to be of immediate use to their future employer and has provided sufficient breadth of understanding of multi-discipline design to position them for accelerated career progression.

Graduates from the have gone onto pursue engineering careers in disciplines such as structural design, stress analysis or systems design. Many of our former graduates occupy very senior positions in their organisations, making valuable contributions to the international aerospace industry.

Many of our graduates occupy very senior positions in their organisations, making valuable contributions to the international aerospace industry. Typical student destinations include BAE Systems, Airbus, Dassault and Rolls-Royce.

For further information

On this course, please visit our course webpage - http://www.cranfield.ac.uk/Courses/Masters/AVD-Option-in-Structural-Design

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The course at Brunel stands out from others in the market because NSIRC is the UK’s first industrially-led postgraduate education centre, which is a joint initiative between TWI and Brunel University London as the lead academic partner. Read more

About the course

The course at Brunel stands out from others in the market because NSIRC is the UK’s first industrially-led postgraduate education centre, which is a joint initiative between TWI and Brunel University London as the lead academic partner.

There are no other postgraduate opportunities that provide a dedicated, specialist training programme that combines academic excellence through Brunel University London, with extensive up-to-date industrial experience of TWI’s experts across the many and varied disciplines essential to structural integrity, as applied in the oil and gas, power generation and transportation sectors.
 
 The National Structural Integrity Research Centre (NSIRC), an education and research collaboration with Brunel University London, is contributing to the course.

Aims

This programme is specifically tailored to provide graduates or practising engineers with the necessary skills to pursue a successful engineering career, who are targeted for recruitment by companies and organisations globally. As industry-ready engineers, recent graduates of this MSc are in high demand and have been successful in gaining employment in:

Oil and gas industry
Engineering consultancies
Asset management
Research organisations

When structures fail, the results can be catastrophic. Not only in terms of potential loss of life and operational downtime, but also because of the huge costs associated with subsequent inspection and repair. Integrity engineers play a crucial role in preventing these failures. Their decisions influence structural design, determine service life extensions and improve safety for a wide range of sectors, including oil and gas, power generation and transportation.

This unique postgraduate programme provides the necessary training needed to detect the existence, formation and growth of damage and defects, and to assess the influence of loads and stresses arising from manufacture and applied in service. While being able to detect defects is vital, it is knowing what to do with these defects that is at the core of this programme. You can expect to be taught by industrial experts involved in developing codes, standards and working practices.

Being industry-led, this programme provides an opportunity to work on real engineering projects, equipping graduates with applied knowledge of material and structural failure, finite element analysis, non-destructive testing and project management. 

Course Content

The MSc in Structural Integrity is based around eight modules and an industry-led dissertation project. Please be aware modules may be subject to change.

Modules:

Fracture Mechanics and Fatigue Analysis
Materials - Metallurgy and Materials
NDT Inspection Methodology
Codes of Practice with Principles and Application
Stress Analysis and Plant Inspection
Numerical Modelling of Solids and Structures
Reliability Engineering
Structural Health Monitoring
Dissertation

Work Placements

All dissertation projects will be linked to an industrial research scheme thus providing opportunities for placements to various extents appropriate to the project requirement.

Teaching

The course runs from September to September, with the key activities in the period up to the end of April being taught lecture modules and seminars from leading experts in the UK. From May until the end of the programme, students work full-time on their industrially supported dissertation project.

The programme employs a wide range of teaching methods designed to create a demanding and varied learning environment including a structured lecture programme, self-study online videos, case studies, “hands on” computing and testing laboratory sessions and guest speakers.

Assessment

Each module is assessed through a range of assessment types (including group work), to ensure students have a comprehensive understanding and can readily apply the taught material to real engineering problems.

Special Features

The MSc in Structural Integrity of Brunel University London has significant industrial involvement with contribution from the NSIRC. The MSc course will combine academic excellence with the extensive up-to-date industrial experience of TWI's experts across the many and varied disciplines that are essential to structural integrity.

Student diversity
Our students come from a variety of personal and professional backgrounds. Many have specific careers in mind, or are already practising integrity engineers working in the oil and gas or power generation sectors. This mix of experience creates an extremely valuable learning environment and excellent opportunities for networking.

Location
Located in a purpose-built facility adjacent to the headquarters of TWI, this specialist off-campus programme is solely delivered at the Granta Park science campus just outside Cambridge. The setting allows students to work alongside leading academics and industrial experts who are at the forefront of structural integrity research.

Getting to Granta Park is convenient and straightforward, with several shuttle buses travelling directly from the city centre every day. Students can enjoy life in Cambridge and benefit from the many sporting, cultural and social events this compact cosmopolitan city provides. Cambridge is also conveniently close to London, just a 45-minute journey by train, and enjoys easy access to the major London airports and road links to the rest of the country. 

Excellent facilities
The bespoke teaching, research and experimental facilities are outstanding; with state-of-the-art equipment available to support a variety of research topics specified by our industrial partners and includes:

- Industry standard commercial software including Simulia ABAQUS, MATLAB and industry standard software developed by TWI, including CrackWISE (fracture and fatigue assessment procedures (BS 7910) for engineering critical assessment and IntegriWISE (Fitness-For-Service (FFS)) assessment software for evaluating the integrity of ageing pipework, pipelines, storage tanks, boilers, pressure vessels and high temperature equipment.

- Access to joint facilities across Brunel University London and TWI, which allows component and full scale testing, which includes mechanical and fatigue testing under different environmental conditions, NDT inspection, together with access to 4D tomography and microscopy facilities.

- Access to onsite, dedicated high performance computing facility, which permits large scale computational research projects to be performed.

- Combined access to Brunel and TWI library resources, which includes the latest publications, staff journal papers and the latest design codes and standards developed by TWI.

Accommodation
With a vast student mix in Cambridge, there is accommodation available minutes from TWI.

Women in Brunel Engineering and Computing Programme

Brunel’s Women in Brunel Engineering and Computing mentoring scheme provides our female students with invaluable help and support from their industry mentors.

Accreditation

Accreditation by external professional bodies is further testament to our teaching standards and course content. Graduates are able to use this degree to satisfy part of the further learning requirements for Chartered Engineer (CEng) status with the Institution of Mechanical Engineers and the Institute of Materials, Minerals and Mining.

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Enhance your knowledge of aerospace systems and structures with advanced modules and an extensive research project. Subjects include. Read more

About the course

Enhance your knowledge of aerospace systems and structures with advanced modules and an extensive research project. Subjects include: aerodynamics and aeropropulsion, fatigue and fracture of aerospace components, composites for aerospace applications and structural health monitoring of aerospace structures.

Your career

Our courses are designed to prepare you for a career in industry. You’ll get plenty of practical research experience, as well as training in research methods and management. Recent graduates now work for Arup, Rolls-Royce and Network Rail.

A world-famous department

This is one of the largest, most respected mechanical engineering departments in the UK. Our reputation for excellence attracts world-class staff and students. They’re involved in projects like improving car designs and designing jaw replacements – projects that make a difference.

Our world-famous research centres include the Insigneo Institute, where we’re revolutionising the treatment of disease, and the Centre for Advanced Additive Manufacturing. We also work closely with the University’s Advanced Manufacturing Research Centre (AMRC).

Support for international students

Our students come from all over the world. We’ll help you get to know the department and the city. Your personal tutor will support you throughout your course and we can help you with your English if you need it.

Labs and equipment

We’ve just refurbished a large section of our lab space and invested over £350,000 in equipment including new fatigue testing facilities, a CNC milling centre, a laser scanning machine and a 3D printer.

Core modules

Information Management; Research Project; Advanced Experiments and Modelling; Design Innovation Toolbox.

Examples of optional modules

A selection from: Computational Fluid Mechanics; Renewable Energy; Engineering Composites Materials; Advanced Fluid Mechanics; Reciprocating Engines; Aerodynamic Design; Experimental Stress Analysis; Tribology of Machine Elements; Aeropropulsion; Condition Monitoring.

Teaching and assessment

Teaching takes place through lectures, tutorials, small group work and online modules. Assessment is by formal examinations, coursework assignments
and a dissertation.

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This two-year part-time course offers experienced clinicians and practitioners from a range of professional backgrounds a unique opportunity to develop in-depth specialist knowledge and skills in Mindfulness-Based Cognitive Therapy (MBCT). Read more
This two-year part-time course offers experienced clinicians and practitioners from a range of professional backgrounds a unique opportunity to develop in-depth specialist knowledge and skills in Mindfulness-Based Cognitive Therapy (MBCT). Our aim is to foster a community of practitioners with the expertise to deliver high quality MBCT to patients, and to contribute to the development and dissemination of this innovative approach to mental and physical healthcare.

The course is offered by the Oxford Mindfulness Centre at the Oxford University Department of Psychiatry, in collaboration with the University of Oxford Department for Continuing Education. Successful completion of the course leads to an award of a Master of Studies by the University of Oxford.

Oxford has been internationally recognised as a centre of excellence in cognitive therapy (CT) research, treatment development and dissemination for nearly 20 years. It has an unusually rich concentration of acknowledged experts in CT and a first class reputation for providing high quality training courses and clinical supervision. A growing team of Oxford clinicians and researchers now specialise in MBCT, and have successfully developed and delivered a range of MBCT training events, including introductory workshops, masterclasses, residential training retreats, a foundational training course, and a Master of Studies degree course. The Masters programme was initiated by Professor Mark Williams, one of the founders of MBCT, and the team includes Professor William Kuyken, a leading figure in the development of MBCT and the current Director of the Oxford Mindfulness Centre.

Visit the website https://www.conted.ox.ac.uk/about/mst-in-mindfulness-based-cognitive-therapy

The Rationale for the Course

MBCT was developed by John Teasdale, Mark Williams and Zindel Segal as a manualised, class-based skills training programme for people with recurrent depression. It integrates elements of cognitive therapy with intensive practice of mindfulness meditation, with the aim of helping people to relate differently to pain and distress. Randomised clinical trials support its efficacy in preventing relapse in people who have experienced repeated episodes of depression, and it is now recommended in the guidelines of the National Institute of Clinical Excellence (NICE) as a cost-effective treatment of choice for this increasingly common problem.

Because its central principles are transdiagnostic, MBCT holds promise as a helpful intervention in a wide range of settings and with a broad range of problem areas, both physical and emotional. Preliminary research suggests that mindfulness-based approaches can be helpful to patients with problems as diverse as chronic pain, psoriasis, cancer, health anxiety, chronic fatigue syndrome, stress, generalised anxiety disorder, psychosis and bipolar disorder where there is a history of suicidal thoughts or behaviour.

MBCT has attracted a great deal of interest within the mental health and behavioural medicine communities. However opportunities to extend preliminary learning and to acquire the knowledge and skills necessary for becoming aneffective teacher are limited. This means that practitioners wishing to use the approach with their clients have great difficulty in accessing appropriate training and supervision. The Oxford course is designed to address this need. It offers an opportunity for in-depth learning, and aims to create a body of clinicians with the knowledge and skills they require in order to teach, develop and disseminate MBCT effectively.

Programme details

The course is taught, part-time, over two years, and is organised in nine three-day teaching blocks (held in Oxford) and three residential training retreats (four days and seven days in Year I and seven days in Year II). In addition to the taught component, students will need to set aside 6-7 hours per week for private study, personal practice of MBCT, completion of written assignments. Participants on courses with similar demands confirms that this time is crucial to completing the course successfully.

On successful completion of the taught components of the course and associated assignments, the award of the Master's degree is made by the University of Oxford, under the aegis of its Continuing Education Board.

Course Content

The course addresses the theoretical basis of MBCT, including relevant aspects of cognitive and clinical psychology, as well as aspects of Buddhist psychology and philosophy on which MBCT draws. It also provides opportunities for students to develop the practical skills they need in order to translate knowledge and understanding into competent MBCT practice, that is, students are expected to develop for themselves the understanding and skills they will be teaching to patients. (This is analogous to the requirement for experience of personal therapy in the education of psychodynamic psychotherapists).

The course covers four main topic areas:

- Theory, including: relevant cognitive science (e.g. attention, memory, judgement, metacognition, executive function); clinical theory (e.g. cognitive theories of the development and maintenance of emotional disorder and the principles underlying MBCT); relevant aspects of Buddhist psychology and philosophy and their contribution to MBCT

- Research related to the ongoing development of MBCT, and investigating the areas of theory outlined above

- Clinical applications in a range of problem areas, for example, depression, chronic fatigue, pain, psychosis and borderline personality disorder

- Practice including the development of personal experience of mindfulness meditation, the capacity to relate this experience to theory and research, and the skills needed to instruct patients/clients in MBCT, drawing on relevant theory, research and clinical literature

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Occupational therapy practice is concerned with enhancing the daily lives of individuals with a very broad range of physical, mental health or social needs. Read more
Occupational therapy practice is concerned with enhancing the daily lives of individuals with a very broad range of physical, mental health or social needs. As an occupational therapist you will work with clients to improve function and enable them to fulfil the demands of their daily lives with greater satisfaction. You will work with people of all ages from all walks of life, in hospital, in the community, in their place of employment or in their home, and have the opportunity to work in a very wide variety of professional practice areas.

The fundamental aim of the MSc Occupational Therapy (pre-registration) programme is to enable you to graduate with a master’s degree in occupational therapy and be eligible to apply for registration as an occupational therapist with the Health and Care Professions Council (HCPC) in the UK. The Degree does not provide eligibility to practice in any other country although the degree is WFOT recognised.

HCPC approved and COT/WFOT accredited

See the website http://www.brookes.ac.uk/courses/postgraduate/occupational-therapy-pre-registration/

Why choose this course?

- Graduates from this programme will be fit for purpose, practice, and award in the UK. We enable you to develop a profound understanding of the potential for occupational therapy to promote the health and wellbeing of the population. Skills acquired will be evidenced based, innovative and give you the capacity to make a significant contribution to the profession, specifically contribute to excellence in client care and the professional knowledge base. On successful completion of the degree and 1000 hours of clinical practice education you will be eligible to apply for registration with the Health and Care Professions Council as a registered Occupational Therapist in the UK.

- Many of our graduates go on to further educational development at PhD/DPhil and professional doctorate level. We are mindful of the anticipated transformation of practice over the next 20 years as well as the changes to demographics and the political innovation resulting in the widening participation agenda. We therefore aim to attract graduate students, who are academically able, demonstrate appropriate values of self-determination, motivation and critical awareness of learning needs and show potential for leading leadership, innovation and research.

- Based in Oxford, the environment for learning is rich with diversity, culture, specialist health and social care resources, academic resources as well as close commuting links to London.

- Our programme is staffed by occupational therapists expert in diverse clinical specialities, and supported by occupational therapy practice educators from all areas of mainstream and specialist practice. Our lecturers are experienced in their specialist practice areas and have reputations for excellence with established links with colleagues, organisations and institutions at national and international level.

- This course benefits from shared and inter-professional education opportunities, in addition to profession specific ones, to develop the professional qualities and attributes for current and future health and social care practice.

- Our ongoing investment in a new technology infrastructure is enabling the teaching team to exploit successful technology-enriched learning throughout the programme. We have a large and dedicated building in Oxford (Marston Road) equipped with state-of-the-art classroom and clinical skills and communication suites and resources. We run a weekly Hand Therapy clinic and a monthly Community Occupational Therapy Assessment Clinic for the public. Students are invited to observe other qualified OT's working in these clinics.

- We have a strong research profile, with experienced researchers working in established areas of cancer care, children and families, drug and alcohol, physical rehabilitation and enablement, inter-professional education and collaborative practice.

- Established in 1938, we are the oldest School of Occupational Therapy in England, and have one of the best occupational therapy library collections in the country.

- We have an excellent track record of high levels of student satisfaction, low student attrition rates and high employability.

Teaching and learning

MSc in Occupational Therapy is taught alongside the well-established and highly-regarded BSc (Hons) Occupational Therapy.

Pre-registration Masters students will be taught alongside the undergraduate students in all occupational therapy specific modules. These will be identified with different module numbers and names to those of the undergraduate programme. This dual level teaching in classroom will provide you with the opportunity to learn the core skills and specific attributes of occupational therapy alongside the BSc (Hons) Occupational Therapy students.

However, the pre-registration Masters students are provided with an enhanced level 7 learning experience with module specific tutorials to explore a more critical and evidence based approach to the subject matter and thus develop professional competence in academic, research and digital literacy, critical thinking and personal self-awareness.

Our approach will require you to actively engage in these Masters level tutorials and become self-directed, innovative, creative and critical learners. Teaching will assist you to construct knowledge through the analysis, synthesis and conceptualisation of your learning experiences, thus developing a lifelong approach to learning. This supports employability in a marketplace that demands adaptability, continuous development and leadership.

You will have the opportunity for face-to-face and virtual learning activities. Our inter-professional module is taken alongside other health and social care pre-registration master's level students, enabling you to prepare for the interdisciplinary work you will encounter in the health and social care environment.

Working at master’s level, you will focus on developing your knowledge in occupational therapy, which is evidence-based and strongly underpinned by research.

This master's degree will:
- Enable you to be a reflective, proactive, innovative and adaptable occupational therapy practitioner, with the ability to critique research and evaluate the effectiveness of evidence in a wide variety of practice settings.

- Develop a critical understanding of the theory of occupation and teach you to challenge existing models and approaches used in occupational therapy from an informed perspective.

- Provide opportunities to develop your ability to work both independently and as part of a team in the context of social, technological, administrative and policy changes.

How this course helps you develop

This course is mapped against the University's postgraduate attributes so that all occupational therapy graduates are equipped with the skills of academic literacy, digital and information literacy, global citizenship, research literacy, critical self awareness and personal literacy. These attributes are in addition to the NHS core values of respect and dignity, commitment to quality of care, compassion, and aspiring to improve the lives of others where everyone counts and we work together for patients.

Careers

The majority of graduates from the occupational therapy degrees work as qualified and registered occupational therapists, but there are increasing opportunities to work in non-specified professional roles in mental health and community settings. There are also increasing numbers of employment roles that are not explicitly described or advertised as an ‘occupational therapist’ but match the skills specification of an occupational therapist. This is due to the changing nature of health and social care practice and the new and emerging roles and opportunities for occupational therapy.

Free language courses for students - the Open Module

Free language courses are available to full-time undergraduate and postgraduate students on many of our courses, and can be taken as a credit on some courses.

Please note that the free language courses are not available if you are:
- studying at a Brookes partner college
- studying on any of our teacher education courses or postgraduate education courses.

Research highlights

The Centre for Rehabilitation within the Department of Sport and Health Sciences has strong leadership in the director, Professor Helen Dawes. The Centre brings together research, education and care. It is underpinned by a strong, well-published research group, the Movement Science Group, along with clinical expertise, rehabilitation, knowledge and care of adults and children with neurological conditions. Within the Centre, staff, students and alumni across the Faculty of Health and Life Sciences are engaged in a number of research projects.

Examples of ongoing research projects within the faculty:
- Driving rehabilitation - cognitive mechanisms of driving and performance implications for clinical populations

- Fatigue management – Central and peripheral fatigue and mechanisms in clinical populations

- Dual task control in Stroke - influence on community mobility

- Efficacy of Intensive motor learning programmes – Themed (Magic) camps for children with hemiplegia

- Arts in Health Research – collaboration with Breathe Arts Health Research with research opportunities across many arts related activities

- Virtual Reality (VR) technologies – development and implementation of VR technologies in rehabilitation

- Early identification of motor and sensory processing impairments in children

- Sensory processing disorders and impact on function and behaviour in children with autism

- Measurement and monitoring of rehabilitation participation- Traumatic Brain Injury (TBI), Systematic Review of Vocational Rehabilitation for people with TBI

- Therapy for hand writing in people with Parkinson’s disease (PD)

- Monitoring movement in people with neurological conditions – mechanisms and impact e.g. head drop in Parkinson Disorder

- Physical activity impact on sleep, behaviour cognition, health and wellbeing in children with neurodisability

- Falls in people with learning disabilities – an understanding of the impact of anxiety

- A Functional Electrical Stimulation Plantar flexion System for Bone Health Maintenance in Spinal Cord Injury Patients

- Professional development Perspectives of Occupational Therapists working in the NHS and concepts of Occupational Balance, Cultural perspectives and attitude change in professional identity acquisition.

Research areas and clusters

Our staff are involved in research both independently and collaboratively.

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This MSc Rehabilitation course is for those with qualifications in Physiotherapy or Occupational Therapy who wish to take their career to the next level - whether in a leadership role, in academic research or by advancing their clinical expertise. Read more
This MSc Rehabilitation course is for those with qualifications in Physiotherapy or Occupational Therapy who wish to take their career to the next level - whether in a leadership role, in academic research or by advancing their clinical expertise.

Designed by UWE Bristol academics with input from industry specialists, the core modules of the course equip students with the skills, thinking and perspective to be able to implement change in settings ranging from established health and social care settings to marginal communities. Not just within the UK/ NHS framework but within a global context.

With several optional modules available, you can tailor the course to your own areas of interest, including neurorehabilitation, musculoskeletal rehabilitation, long term conditions, fatigue, health economics and knowledge mobilisation.

Course detail

The course can be taken entirely by distance with only a minimal amount of set hours for online contact. Students can set their own study schedule within each module's delivery time, so you can fit the course around working life.

Two optional modules include approximately 5 days of face-to-face time. You can choose to attend conference days across other modules but all lectures and other resources are posted online to enable an entirely flexible and distance based learning.

Throughout the course, you will be stimulated to think about the broad scope of rehabilitation provision, exploring how to meet the needs of services users in all kinds of situations around the world.

We also support the development of your cognitive abilities. For example, writing skills, which are a vital part of requesting funding, communicating with stakeholders and future research.

Beyond the course, graduates will be ready to work autonomously, put their forward thinking into action, and make a positive impact in whatever type of setting they choose to work.

Modules

Core modules:
• Rehabilitation (30 credits)
• Health and Social Care Research: Methods and Methodology (15 credits)
• Contemporary Leadership in Rehabilitation (30 credits)
• Musculoskeletal Rehabilitation (30 credits)
• Neurorehabilitation (30 credits)
• Dissertation (45 credits)

Optional modules:
• Health Economics
• Evidencing Work Based Learning
• Knowledge Mobilisation
• Independent Study
• Long Term Conditions
• Fatigue Management

Format

This Masters is one of several distance learning courses offered by UWE Bristol that make use of our established interactive Blackboard portal.

The majority of modules will be posted online, so you can access video lectures, virtual classrooms, forums and other resources from wherever you are. You will submit assignments online throughout the course. In addition to self-directed study, some virtual learning will be in small groups and with partners.

The face-to-face days that are part of the optional modules will be delivered in a workshop style, giving you the opportunity to practice your skills.

On the optional conference days, teaching will be delivered though lectures and facilitated group work. These conference days will be captured and made available online for all students.

Assessment

The course uses a range of assessments chosen to help you develop skills for the real world, including presentations, posters, vivas and written assignments.

Careers / Further study

On graduation, you will have the qualification required to advance to Band 6, 7 or 8 within the NHS and its partners.

Overseas students will be able to register with the UK's Health and Care Professions Council (HCPC) and be eligible for work in the UK or Europe.

This Masters enables British students to seek out licencing opportunities in the USA.

In addition to these routes, the course will equip you with the skills needed to innovate and design services for patients and users in a diverse range of situations around the globe.

How to apply

Information on applications can be found at the following link: http://www1.uwe.ac.uk/study/applyingtouwebristol/postgraduateapplications.aspx

Funding

- New Postgraduate Master's loans for 2016/17 academic year –

The government are introducing a master’s loan scheme, whereby master’s students under 60 can access a loan of up to £10,000 as a contribution towards the cost of their study. This is part of the government’s long-term commitment to enhance support for postgraduate study.

Scholarships and other sources of funding are also available.

More information can be found here: http://www1.uwe.ac.uk/students/feesandfunding/fundingandscholarships/postgraduatefunding.aspx

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Introduction. Applications are invited for an MSc by Research fees funded studentship post commencing 19th March 2018. The Studentship is open to home/EU students. Read more

Introduction

Applications are invited for an MSc by Research fees funded studentship post commencing 19th March 2018. The Studentship is open to home/EU students. It will run for 1 year and the fees of the MSc by Research programme will be paid by the Institute for Sport and Physical Activity Research (ISPAR) at the University of Bedfordshire. 

ISPAR delivers research spanning across sport science, physical activity, health, psychology, behaviour change, pedagogy and social sciences of sport. In the latest Research Excellent Framework assessment 95% of our research was rated as internationally recognised or better. 

About the project

The Institute for Sport and Physical Activity Research (ISPAR) and the Institute for Research in Applicable Computing (IRAC) at the University of Bedfordshire have partnered to deliver this exciting interdisciplinary research project. The project will undertake an evaluation of a mobile phone app and online platform developed by these two research institutes to promote the health and wellbeing of breast cancer patients. The app and online platform are designed to empower patients in their healthcare by encouraging them to self-manage their condition. The tools help to monitor health, medication reminders, medical appointments, physical activity, sedentary behaviour, pain, and fatigue, which are common problems in cancer patients. The app also delivers the patient tips and reminders for healthy behaviours and provides interactive visualisation of the patient’s data, which can be shared with medical professionals to inform clinical decisions. 

The successful candidate will undertake a research project to evaluate the effects of these tools on quality of life, pain, fatigue, physical activity, and sedentary behaviour in breast cancer patients. The candidate will gain research experience in a clinical setting and will work within an interdisciplinary team on this exciting project. It is expected that the student will contribute to the study design, NHS ethical approval process, delivery and evaluation of the intervention, and author a journal publication to disseminate the findings. 

Candidate requirements

The applicant will gain experience in the design, conduct and presentation of research relating to the project. Applicants will have a good first degree (minimum of 2:1) in a relevant discipline (e.g. physical activity, sport and exercise science, applied computing, biomedical science). 

Supervisor:

The student will be under the supervision of: 

- Dr Daniel Bailey Senior Lecturer in Health, Nutrition and Exercise; Institute for Sport and Physical Activity Research 

- Feng Dong Professor in Visual Computing; Institute for Research in Applicable Computing 

Funding: ISPAR will pay the fees of £4,107; there are no bench fees associated with this project. The post will not include a bursary. 

How to apply

For an application pack or any application queries please email  quoting the appropriate reference number. In addition to a CV all applicants will need to send a cover letter with supporting information on their experience and skills and how these relate to the advertised studentship. 

It is expected that interviews will take place the week beginning 26th February 2018. 

For informal discussions or non-application related queries, please contact Dr Daniel Bailey by email at 

Closing date: 19th February 2018 



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Offered as part of the. Continuing Professional Development. (CPD) programme. Full-time and part-time students study a number of one-week short-course modules comprising lectures, laboratory sessions and tutorials. Read more

Offered as part of the Continuing Professional Development (CPD) programme.

Full-time and part-time students study a number of one-week short-course modules comprising lectures, laboratory sessions and tutorials.

The modules cover metals, polymers, ceramics, composites, nanomaterials, bonding, surfaces, corrosion, fracture, fatigue, analytical techniques and general research methods. Each module is followed by an open book assessment of approximately 120 hours.

There is also a materials-based research project, which is made up of the Research Project Planning and the Project modules.

The MSc in Advanced Materials is accredited by the Institute of Materials, Minerals and Mining (IOM3) and by the Institution of Mechanical Engineers (IMechE) when a Project is undertaken.

Programme structure

This programme is studied full-time over one academic year and part-time over five academic years. It consists of eight taught modules and a compulsory Project.

Example module listing

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Educational aims of the programme

  • To provide students with a broad knowledge of the manufacture, characterisation and properties of advanced materials
  • To address issues of sustainability such as degradation and recycling
  • To equip graduate scientists and engineers with specific expertise in the selection and use of materials for industry
  • To enable students to prepare, plan, execute and report an original piece of research
  • To develop a deeper understanding of a materials topic which is of particular interest (full-time students) or relevance to their work in industry (part-time students) by a project based or independent study based thesis

Programme learning outcomes

The programme provides opportunities for students to develop and demonstrate knowledge and understanding, skills, qualities and other attributes in the following areas:

Knowledge and understanding

  • The different major classes of advanced materials
  • Routes for manufacturing and processing of advanced materials
  • Characterisation techniques for analysing bonding and microstructure
  • Mechanical, chemical and physical properties of advanced materials
  • Processing -microstructure - property relationships of advanced materials
  • Material selection and use
  • Appropriate mathematical methods

Intellectual / cognitive skills

  • Reason systematically about the behaviour of materials
  • Select materials for an application
  • Predict material properties
  • Understand mathematical relationships relating to material properties
  • Plan experiments, interpret experimental data and discuss experimental results in the context of present understanding in the field

Professional practical skills

  • Research information to develop ideas and understanding
  • Develop an understanding of, and competence, in using laboratory equipment and instrumentation
  • Apply mathematical methods, as appropriate

Key / transferable skills

  • Use the scientific process to reason through to a sound conclusion
  • Write clear reports
  • Communicate ideas clearly and in an appropriate format
  • Design and carry out experimental work

Global opportunities

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.



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This course spans advanced mechanical sciences theory, simulation and practice. Using industry standard software you will develop complex models to simulate topics such as multibody dynamic systems; thermo-fluid systems and advanced stress and structure simulations. Read more

This course spans advanced mechanical sciences theory, simulation and practice. Using industry standard software you will develop complex models to simulate topics such as multibody dynamic systems; thermo-fluid systems and advanced stress and structure simulations. Failure mechanisms inreal-worldsystems and components will be investigated through fatigue analysis; you will also examine multi-body dynamic systems and turbulent fluid dynamic motion. Your chosen specialist Masters project makes upone thirdof the overall course.

You will also learn from industry case studies. All units provide real-world engineering problems, case studies and practical techniques using state-of-the-art hardware and the latest, industry-standard software for design, experimentation and evaluation. The units typically have a good balance of practical and theoretical work. Much of the practical work is computer based.

Accredited by the Institution of Engineering and Technology on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer. Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.

Features and benefits of the course

-Engineering facilities are excellent with a dedicated £4m heavy engineering workshop for research and teaching in surface engineering, materials and dynamics, with state-of-the-art kit including rapid prototyping machines and water jet cutters.

-Research in the School of Engineering was rated 'internationally excellent' in the Research Excellence Framework 2014.

-You will learn from industrial case studies and use the latest, industry standard software.

-The main student intake is in September but it is also possible to begin studying in January.

About the Course

Our engineering Masters programmes are designed to meet the needs of an industry that looks to employ postgraduates who can learn independently and apply critical thinking to real-world problems. Many of the staff who teach in the School also have experience of working in the industry and have well-established links and contacts in their industry sector, ensuring your education and training is relevant to future employment.

This course starts in September and January. Please note that January starters will have a course duration of approximately 15 months.

Assessment details

You will be assessed through a combination of written reports, oral presentations, practical assignments and written examinations.



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This specialised interdisciplinary Master’s course is an exciting, innovative and forward thinking course which will help you challenge your current working practice in rehabilitation. Read more
This specialised interdisciplinary Master’s course is an exciting, innovative and forward thinking course which will help you challenge your current working practice in rehabilitation. The course offers you the opportunity to enhance the skills of critical enquiry and gain an appreciation of the underlying theory, research and policy guiding current rehabilitation practice.

Suitable for all practitioners working in health and social care like nurses, doctors, occupational therapists, physiotherapists, social workers and speech and language therapists. Previous cohorts have included an interdisciplinary mix of practitioners working in both general and specialist areas of rehabilitation in the community, intermediate care, acute, independent sector and local authorities, both in the UK and overseas.

Students can study the full MSc or can opt to study individual modules.

Highlights

>Shared campus with one of the largest teaching hospitals in the UK
>Led by a team of senior academics and advanced practitioners in rehabilitation
>Interprofessional education: Shared learning alongside all other MSc postgraduate courses and both pre and post registration students
>You will undertake and present a research project based on your chosen specialism
>Careers advice embedded into our teaching.

[[Modules]

The minimum period of study for the part-time programme route is 24 months; maximum period of study is 60 months.

The minimum period of study for the full-time route is 12 months; maximum period of study is 36 months.

It is possible to study modules on a standalone basis leading to an MSc, PgDip or PgCert over five years.

Core modules:

Policy and practice in health care
Evaluation of reflection in rehabilitation
Critical thinking in practice
Data analysis
Research methods
Research project

Optional modules:

Cognitive behavioural approaches in health
Psychology for exercise
Exercise intervention for obesity and diabetes
Cardiac rehabilitation
Managing fatigue: implications for exercise
Pulmonary rehabilitation
Quality and innovation in rehabilitation
Pain management
Self-management in long term and neurological conditions
Work based learning
Professional development in rehabilitation
Life after stroke

Studying

Members of the planning and teaching team come from multidisciplinary backgrounds and have considerable experience of implementing and teaching on Master's level courses. The team also has a range and depth of experience in both service delivery and research in rehabilitation.

We have considerable experience in neurological and elderly rehabilitation and have contributed or been responsible for service delivery in both acute and community healthcare, as well as the voluntary and independent sector.

There is also specific expertise in the rehabilitation of individuals with stroke, dementia, acute brain injury, pain management, cardiac and chronic pulmonary disease, falls, progressive neurological disease and palliative care.

Careers

In addition to developing your understanding of your specialist area, this course will enable you to:

>Develop a critical understanding of the key policy drivers in rehabilitation and critically evaluate the implications on your own practice.
>Develop a critical awareness and systematic understanding of research methods used in rehabilitation research.
>Critically evaluate your effectiveness in relation to the delivery of person-centred rehabilitation.
>Develop leadership skills and advanced practice to promote effective inter-professional working and service delivery in rehabilitation.
>Critically evaluate and advance the most current evidence- based programmes of care in relation to the complex and changing needs of individuals.

You will also gain an understanding of the complex areas of government policy in relation to rehabilitation and will look at models of disability and rehabilitation and their influence on practice from the perspective of both the practitioner and the patient/client.

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Gas Turbine Technology provides a comprehensive background in the design and operation of different types of gas turbines for all applications. Read more

Course Description

Gas Turbine Technology provides a comprehensive background in the design and operation of different types of gas turbines for all applications. This course is designed for those seeking a career in the design, development, operations and maintenance of power and propulsion systems. Graduates are provided with the skills that allow them to deliver immediate benefits in a very demanding and rewarding workplace and therefore are in great demand. The course is suitable for graduates seeking a challenging and rewarding career in an international growth industry.

The UK continues to lead the world in power and propulsion technology. In addition to its established aerospace role, the gas turbine is finding increasing application in power generation, oil and gas pumping, chemical processing and power plants for ships and other large vehicles.

Course overview

The course consists of approximately ten to fifteen taught modules and an individual research project.

In addition to management, communication, team work and research skills, each student will attain at least the following outcomes from this degree course:

- Provide the skills required for a rewarding career in the field of propulsion and power.
- Meet employer requirements for graduates within power and propulsion industries.
- Demonstrate a working knowledge and critical awareness of gas turbine performance, analysis techniques, component design and associated technologies.
- Explain, differentiate and critically discuss the underpinning concepts and theories for a wide range of areas of gas turbine engineering and associated applications.
- Be able to discern, select and apply appropriate analysis techniques in the assessment of particular aspects of gas turbine engineering.

Individual Project

You are required to submit a written thesis describing an individual research project carried out during the course. Many individual research projects have been carried out with industrial sponsorship, and have often resulted in publication in international journals and symposium papers. This thesis is examined orally in September in the presence of an external examiner.

Recent Individual Research Projects include:

- S-duct aerodynamic shape multi-objective optimisation
- Performance modelling of evaporative gas turbine cycles for marine applications
- Mechanical integrity/stress analysis of the high pressure compressor of a new engine
- High pressure turbine blade life analysis for a civilian derivative aircraft conducting military operations
- Engine performance degradation due to foulants in the environment
- Effects of manufacturing tolerances on gas turbine performance and components
- Development of a transient combustion model
- Numerical fan modelling and aerodynamic analysis of a high bp ratio turbofan engine
- Combustor modelling
- Impact of water ingestion on large jet engine performance and emissions
- Windmilling compressor and fan aerodynamics
- Neural networks based sensor fault diagnostics for industrial gas turbine engines
- Boundary layer ingestion for novel aircraft
- Multidisciplinary design optimisation for axial compressors
- Non-linear off design performance adaptation for a twin spool turbofan engine
- Engine degradation analysis and washing effect on performance using measured data.

Modules

The taught programme for the Gas Turbine Technology masters consists of seven compulsory modules and up to seven optional modules. The modules are generally delivered from October to April.

Core -

Blade Cooling
Combustors
Engine Systems
Gas Turbine Theory and Performance
Mechanical Design of Turbomachinery
Gas Turbine Simulation and Diagnostics
Turbomachinery

Optional -

Computational Fluid Dynamics
Fatigue and Fracture
Gas Turbine Applications
Jet Engine Control (only October intake)
Management for Technology
Propulsion Systems Performance and Integration
Rotating Equipment Selection

Assessment

The final assessment is based on two components of equal weight; the taught modules (50%) and the individual research project (50%). Assessment is by examinations, assignments, presentations and thesis.

Funding

A variety of funding, including industrial sponsorship, is available. Please contact us for details.

Cranfield Postgraduate Loan Scheme (CPLS) - https://www.cranfield.ac.uk/Study/Postgraduate-degrees/Fees-and-funding/Funding-opportunities/cpls/Cranfield-Postgraduate-Loan-Scheme

The Cranfield Postgraduate Loan Scheme (CPLS) is a funding programme providing affordable tuition fee and maintenance loans for full-time UK/EU students studying technology-based MSc courses.

Career opportunities

- Gas turbine engine manufacturers
- Airframe manufacturers
- Airline operators
- Regulatory bodies
- Aerospace/Energy consultancies
- Power production industries
- Academia: doctoral studies.

Further Information

For further information on this course, please visit our course webpage - http://www.cranfield.ac.uk/Courses/Masters/Gas-Turbine-Technology-option-Thermal-power

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There is strong demand for engineers with a postgraduate qualification and a good range of mechanical engineering skills. This MSc in Mechanical Engineering has been designed to help you achieve Chartered Engineer (CEng) status and will develop the technical and non-technical skills needed to succeed in this industry. Read more
There is strong demand for engineers with a postgraduate qualification and a good range of mechanical engineering skills. This MSc in Mechanical Engineering has been designed to help you achieve Chartered Engineer (CEng) status and will develop the technical and non-technical skills needed to succeed in this industry.

The range of modules will enhance the depth of your knowledge, while developing the skills to manage people and projects. You will use state-of-the-art engineering analysis software, and employ appropriate analytical and computerbased techniques. Additionally, you will gain an awareness of wider issues such as environmental management and safety. Completion of a dissertation allows you to research a specific topic based on real issues that organisations face.

Staff are active in research and/or consultancy, which brings relevant case studies and context to the subjects you will study.

See the website http://courses.southwales.ac.uk/courses/583-msc-mechanical-engineering

What you will study

Modules include:
- Applied Thermodynamics
- Finite Element Analysis
- Computational Fluid Dynamics
- Heat Transfer and Combustion
- Fatigue and Fracture
- Safety, Health and Environment
- Integrated Project Planning and Management
- Dissertation

Learning and teaching methods

MSc Mechanical Engineering is delivered in two major blocks that offer an intensive but flexible learning pattern, with two entry opportunities for applicants each year (February and September). Modules are taught through lectures, tutorials and practical laboratory work.

Work Experience and Employment Prospects

Mechanical engineers work in areas as diverse as design, research and development, environmental engineering, numerical analysis, computer modelling, use of materials, and control systems. In such a competitive industry, this MSc will improve your career prospects and graduates are likely to progress to occupy senior positions in the engineering industry and related sectors.

Assessment methods

You will be continually assessed by coursework or a mixture of coursework and exams. The
dissertation has three assessment elements: a thesis, a poster presentation and an oral examination (viva voce).

Facilities

The University of South Wales has excellent facilities, and is committed to investment and refurbishment. We’ve just completed a £130m investment programme in new buildings and facilities, including significant investment in the Faculty of Computing, Engineering and Science. The University has also announced a further investment of £28m ensure that you’re using equipment and software that is state-of-the-art and industry-standard, we continually evaluate our labs and teaching spaces and regularly re-fit and re-equip them. A recent refurbishment of a number of our Civil and Mechanical Engineering labs is part of this programme of continuous enhancement of our facilities.

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Interested in a management career? This course combines advanced mechanical engineering subjects with management modules specially designed for engineers. Read more

About the course

Interested in a management career? This course combines advanced mechanical engineering subjects with management modules specially designed for engineers. You’ll complete a research project that brings together technical and management issues. And you can choose taught modules that support your project work.

Your career

Our courses are designed to prepare you for a career in industry. You’ll get plenty of practical research experience, as well as training in research methods and management. Recent graduates now work for Arup, Rolls-Royce and Network Rail.

A world-famous department

This is one of the largest, most respected mechanical engineering departments in the UK. Our reputation for excellence attracts world-class staff and students. They’re involved in projects like improving car designs and designing jaw replacements – projects that make a difference.

Our world-famous research centres include the Insigneo Institute, where we’re revolutionising the treatment of disease, and the Centre for Advanced Additive Manufacturing. We also work closely with the University’s Advanced Manufacturing Research Centre (AMRC).

Support for international students

Our students come from all over the world. We’ll help you get to know the department and the city. Your personal tutor will support you throughout your course and we can help you with your English if you need it.

Labs and equipment

We’ve just refurbished a large section of our lab space and invested over £350,000 in equipment including new fatigue testing facilities, a CNC milling centre, a laser scanning machine and a 3D printer.

Core modules

Design Innovation Toolbox; Market Management; Individual Research Project; Advanced Experiments and Modelling.

Examples of optional modules

A selection from: Additive Manufacturing; Advanced Finite Element Modelling; Aerodynamic Design; Experimental Stress Analysis; Tribology of Machine Elements; Mechanical Engineering of Railways; Nuclear Thermal Hydraulics and Heat Transfer.

Teaching and assessment

You’ll learn through lectures, tutorials, small group work and online modules. You’re assessed by exams, coursework assignments and a dissertation.

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First established in the early 1950s, the MMet course has produced over 700 graduates, with many now working in senior positions within metallurgical companies across the globe. Read more

About the course

First established in the early 1950s, the MMet course has produced over 700 graduates, with many now working in senior positions within metallurgical companies across the globe.

You’ll receive an in-depth and up-to-date understanding of current developments in metallurgy and metallurgical engineering. You’ll learn the fundamentals of thermodynamics, structure and mechanical behaviour. As well as the option to study the more advanced courses on engineering alloys, processing, modelling and performance in service.

Fully accredited by the IoM3 graduates will have the underpinning knowledge for later professional registration as a Chartered Engineer (CEng).

A welcoming department

A friendly, forward-thinking community, our students and staff are on hand to welcome you to the department and ensure you settle into student life.

Your project supervisor will support you throughout your course. Plus you’ll have access to our extensive network of alumni, offering industry insight and valuable career advice to support your own career pathway.

Your career

Prospective employers recognise the value of our courses, and know that our students can apply their knowledge to industry. Our graduates work for organisations including Airbus, Rolls-Royce, the National Nuclear Laboratory and Saint-Gobain. Roles include materials development engineer, reactor engineer and research manager. They also work in academia in the UK and abroad.

90 per cent of our graduates are employed or in further study 6 months after graduating, with an average starting salary of £27,000, the highest being £50,000.

Equipment and facilities

We have invested in extensive, world-class equipment and facilities to provide a stimulating learning environment. Our laboratories are equipped to a high standard, with specialist facilities for each area of research.

Materials processing

Tools and production facilities for materials processing, fabrication and testing, including wet chemical processing for ceramics and polymers, rapid solidification and water atomisation for nanoscale metallic materials, and extensive facilities for deposition of functional and structural coatings.

Radioactive nuclear waste and disposal

Our £3million advanced nuclear materials research facility provides a high-quality environment for research on radioactive waste and disposal. Our unique thermomechanical compression and arbitrary strain path equipment is used for simulation of hot deformation.

Characterisation

You’ll have access to newly refurbished array of microscopy and analysis equipment, x-ray facilities, and surface analysis techniques covering state-of-the-art XPS and SIMS. There are also laboratories for cell and tissue culture, and facilities for measuring electrical, magnetic and mechanical properties.

The Kroto Research Institute and the Nanoscience and Technology Centre enhance our capabilities in materials fabrication and characterisation, and we have a computer cluster for modelling from the atomistic through nano and mesoscopic to the macroscopic.

Stimulating learning environment

An interdisciplinary research-led department; our network of world leading academics at the cutting edge of their research inform our courses providing a stimulating, dynamic environment in which to study.

Teaching and assessment

Working alongside students and staff from across the globe, you’ll tackle real-world projects, and attend lectures, seminars and laboratory classes delivered by academic and industry experts.

You’ll be assessed by formal examinations, coursework assignments and a dissertation.

Core modules

Metals; Metallurgical Processing; Science of Materials; Materials Processing and Characterisation; Materials Selection, Properties and Applications; Technical Skills Development; Heat and Materials with Application; Advanced Materials Manufacturing; Deformation, Fracture and Fatigue; Research Project in an area of your choice.

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A fantastic time to be a specialist in aerospace materials, Sheffield is in the heartland of the UK aerospace industry, meaning many international aerospace companies look to the Department to discover ways to improve both materials and processes for use in their products. Read more

About the course

A fantastic time to be a specialist in aerospace materials, Sheffield is in the heartland of the UK aerospace industry, meaning many international aerospace companies look to the Department to discover ways to improve both materials and processes for use in their products.

You’ll develop knowledge of the manufacturing, processing and properties of the metals and composite materials used in airframes and aeroengines. You’ll also be trained in the fundamentals of thermodynamics, structure and mechanical behaviour.

A welcoming department

A friendly, forward-thinking community, our students and staff are on hand to welcome you to the department and ensure you settle into student life.

Your project supervisor will support you throughout your course. Plus you’ll have access to our extensive network of alumni, offering industry insight and valuable career advice to support your own career pathway.

Your career

Prospective employers recognise the value of our courses, and know that our students can apply their knowledge to industry. Our graduates work for organisations including Airbus, Rolls-Royce, the National Nuclear Laboratory and Saint-Gobain. Roles include materials development engineer, reactor engineer and research manager. They also work in academia in the UK and abroad.

90 per cent of our graduates are employed or in further study 6 months after graduating, with an average starting salary of £27,000, the highest being £50,000.

Equipment and facilities

We have invested in extensive, world-class equipment and facilities to provide a stimulating learning environment. Our laboratories are equipped to a high standard, with specialist facilities for each area of research.

Materials processing

Tools and production facilities for materials processing, fabrication and testing, including wet chemical processing for ceramics and polymers, rapid solidification and water atomisation for nanoscale metallic materials, and extensive facilities for deposition of functional and structural coatings.

Radioactive nuclear waste and disposal

Our £3million advanced nuclear materials research facility provides a high-quality environment for research on radioactive waste and disposal. Our unique thermomechanical compression and arbitrary strain path equipment is used for simulation of hot deformation.

Characterisation

You’ll have access to newly refurbished array of microscopy and analysis equipment, x-ray facilities, and surface analysis techniques covering state-of-the-art XPS and SIMS. There are also laboratories for cell and tissue culture, and facilities for measuring electrical, magnetic and mechanical properties.

The Kroto Research Institute and the Nanoscience and Technology Centre enhance our capabilities in materials fabrication and characterisation, and we have a computer cluster for modelling from the atomistic through nano and mesoscopic to the macroscopic.

Stimulating learning environment

An interdisciplinary research-led department; our network of world leading academics at the cutting edge of their research inform our courses providing a stimulating, dynamic environment in which to study.

Teaching and assessment

Working alongside students and staff from across the globe, you’ll tackle real-world projects, and attend lectures, seminars and laboratory classes delivered by academic and industry experts.

You’ll be assessed by formal examinations, coursework assignments and a dissertation.

Core modules

Aerospace Metals; Design and Manufacture of Composites; Science of Materials; Materials Processing and Characterisation; Materials Selection, Properties and Applications; Technical Skills Development; Heat and Materials with Application; Advanced Materials Manufacturing; Deformation, Fracture and Fatigue; Research project in an area of your choice.

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