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BEng Medical Engineering with a Year in Industry
Cardiff
INTAKE: September
Program Overview
The BEng Medical Engineering with a Year in Industry program at Cardiff University offers students the opportunity to combine a solid engineering education with hands-on experience in the medical field. This program equips students with the technical expertise needed to innovate and design medical technologies while also providing valuable industry exposure through a year-long placement. The course emphasizes practical applications of engineering principles to healthcare challenges, such as the development of medical devices, systems, and healthcare technologies that improve patient outcomes. The integration of a year in industry allows students to gain real-world experience, which enhances their career prospects and provides a unique opportunity to apply classroom knowledge in professional settings.
Curriculum: The curriculum for the BEng Medical Engineering with a Year in Industry program is designed to provide students with a deep understanding of core engineering principles, such as mechanics, materials science, and electrical engineering, while integrating these with specialized courses in medical technologies. In the first two years, students focus on building foundational knowledge in subjects like biomechanics, bioinstrumentation, and medical device design. They also explore areas of electronics, fluid mechanics, and thermodynamics, which are vital for designing medical systems. During the third year, students take part in a year-long industrial placement, where they apply their academic knowledge in real-world engineering settings. In the final year, students return to Cardiff University to complete advanced modules on topics such as medical imaging, rehabilitation technologies, and prosthetics, along with their individual final-year project that often focuses on medical engineering innovations.
Research Focus: The BEng Medical Engineering with a Year in Industry program benefits from Cardiff University’s strong emphasis on research in medical and biomedical engineering. Students are encouraged to engage with ongoing research projects that address key healthcare challenges, such as improving diagnostic devices, developing new biomaterials, and enhancing medical imaging technologies. Cardiff University is home to various research centers and institutes specializing in medical engineering, such as the Institute of Medical Engineering and Physics. This research-driven environment ensures that students are exposed to cutting-edge advancements and methodologies in the medical engineering field, which they can apply in their placements and final-year projects. Research collaboration between students and faculty often leads to significant contributions to the medical technology sector.
Industry Engagement: A key feature of the BEng Medical Engineering with a Year in Industry program is the opportunity for students to gain practical, hands-on experience during their year-long placement. Cardiff University has strong connections with a wide range of medical engineering companies, healthcare providers, and research institutions. Students have the chance to work with industry partners on real-world projects, developing medical devices, improving healthcare systems, and solving engineering challenges that directly impact patient care. The year in industry provides valuable networking opportunities, enhances employability, and gives students insight into the practical aspects of medical engineering. Cardiff’s career services also support students in securing placements, ensuring that the industry experience is relevant and aligned with their career goals.
Global Perspective: The BEng Medical Engineering with a Year in Industry program at Cardiff University offers students a global perspective on medical engineering. Through exposure to international research collaborations and partnerships with global medical technology companies, students are introduced to worldwide challenges and innovations in the healthcare sector. The program encourages students to think about the global implications of medical technologies, such as accessibility to healthcare innovations, the regulation of medical devices, and the need for affordable solutions in diverse healthcare environments. Cardiff University’s international network allows students to participate in projects and conferences that connect them with experts from around the world, further broadening their understanding of global trends and issues in medical engineering.
Location
Cardiff
Score
IELTS 6.5
Tuition Fee
£ 28200
Undergraduate Entry Requirements
Academic Qualifications: Applicants should have successfully completed their secondary education with a minimum overall score of 80% or equivalent in their respective country's grading system.
English language proficiency:
- IELTS: A minimum overall score of 6.0 or 6.5 with no individual component below 5.5.
- TOEFL: A minimum overall score of 90.
- PTE Academic: A minimum overall score of 69.
- Some programs may have specific subject prerequisites or additional requirements.
Cardiff University offers a range of scholarships to support international students pursuing undergraduate studies. These scholarships are designed to attract high-achieving students from around the world, easing the financial burden and recognizing academic excellence.
Vice-Chancellor’s International Scholarship: Cardiff University’s Vice-Chancellor’s International Scholarship is a merit-based award that provides partial funding for exceptional international undergraduate and postgraduate students. This scholarship rewards high academic achievement and study, making it ideal for students with strong academic backgrounds.
Chevening Scholarship: Offered in collaboration with the UK government, the prestigious Chevening Scholarship is available to international students who demonstrate leadership potential and academic excellence. The award covers tuition fees, living expenses, travel costs, and other allowances, supporting future leaders and influencers in various fields.
British Council GREAT Scholarships: Cardiff University partners with the British Council to offer the GREAT Scholarships for students from specific countries, including China, India, Malaysia, and Thailand. These scholarships provide financial assistance for tuition fees and are intended to encourage bright students to pursue postgraduate studies in the UK.
Subject-Specific Scholarships: Certain academic departments at Cardiff University offer additional scholarships tailored to specific fields of study, such as engineering, business, and life sciences. These scholarships provide partial funding and are aimed at attracting talented students to specific programs.
International Foundation Programme Scholarships: For international students who need to complete a foundation year before beginning an undergraduate degree, Cardiff University offers scholarships to cover part of the foundation year tuition fees. This scholarship supports students in their transition to full-time degree programs at the university.
Financial Aid and External Scholarships: In addition to Cardiff University scholarships, students can explore external funding options such as loans, grants, and scholarships provided by their home countries or private organizations. The university’s financial aid office offers guidance to help students find external financial support.
Graduates of the BEng Medical Engineering with a Year in Industry program at Cardiff University are well-equipped for a wide range of career opportunities within the medical engineering and healthcare sectors. The inclusion of a year in industry provides students with the practical experience necessary to enhance their employability and expertise in medical technology.
Medical Device Engineer: Graduates can work with companies that design and manufacture medical devices, including pacemakers, diagnostic equipment, and prosthetic limbs, ensuring the safety, reliability, and effectiveness of these products.
Biomedical Engineer: In this role, graduates apply engineering principles to create solutions that improve healthcare practices, such as developing medical imaging systems, wearable health technologies, or rehabilitation tools.
Clinical Engineer: Graduates can work in clinical environments, managing and maintaining medical equipment, ensuring it operates effectively, and supporting healthcare providers in using medical technologies for patient care.
Product Development Engineer: Graduates can work in R&D departments, helping to design, prototype, and bring new medical devices to market, using their engineering expertise to innovate solutions that address unmet medical needs.
Healthcare Technology Consultant: With a strong technical background, graduates may advise healthcare organizations on how to integrate and optimize medical technologies, improving both efficiency and patient outcomes.
Regulatory Affairs Specialist: Graduates can work within regulatory bodies or medical device companies to ensure that medical products meet required standards and regulations before being marketed, ensuring safety and compliance.
Research Scientist: Graduates with an interest in research can work in academic or private research institutions, contributing to the development of new technologies in areas like medical imaging, biomaterials, or tissue engineering.
Medical Imaging Specialist: This career involves working with cutting-edge technologies to improve diagnostic imaging equipment, such as MRI or CT scanners, which are critical tools in modern healthcare.
Rehabilitation Engineer: Graduates can design and develop technologies that assist individuals with disabilities, including designing advanced prosthetic limbs, wheelchairs, and other mobility aids.
Manufacturing Engineer: Graduates can work in the production of medical devices, focusing on the efficient manufacturing of high-quality medical technologies in compliance with industry standards.
Tissue Engineering Specialist: In this specialized field, graduates focus on developing technologies for tissue regeneration, organ replacement, and other advanced medical treatments.
Entrepreneur in Medical Engineering: Equipped with both technical and industry experience, graduates can launch their own start-ups focused on medical innovations, creating new products or solutions in the medical technology field.
Medical Technology Trainer: Graduates can educate healthcare professionals on the proper use and maintenance of medical equipment, ensuring optimal performance in healthcare settings.
