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- Tasks: Dive into advanced metal 3D printing and innovate for clean energy and technology.
- Company: Join the University of Nottingham, a leader in additive manufacturing research.
- Benefits: Fully funded PhD with a tax-free stipend and access to world-class facilities.
- Other info: Be part of a diverse, supportive community committed to advancing careers in Engineering.
- Why this job: Make a real impact in engineering while developing cutting-edge skills.
- Qualifications: First or upper second-class degree in Engineering or related field; coding experience is a plus.
The predicted salary is between 20000 - 30000 £ per year.
The Centre for Additive Manufacturing (CfAM) Research Group within the Faculty of Engineering at the University of Nottingham invites applications for a fully funded PhD programme. Metal additive manufacturing is transforming how complex components are designed and produced. This PhD project focuses on Molten Metal Jetting (MMJ), an emerging metal 3D printing technology that enables the precise fabrication of multi-material metallic structures with reduced material waste and minimal post-processing.
At CfAM, we have developed the first and unique multi-material MMJ platform capable of printing two metals within a single build at microscopic resolution. This process offers strong potential for applications in clean energy, electronics, and other advanced technologies. The PhD will focus on extending this technology to high-melting-point metals and alloys, which are required for demanding engineering applications.
The student will contribute to the design, modelling, and development of a high-temperature crucible and droplet ejection system, capable of operating reliably under severe thermal and chemical conditions. This will involve a combination of computational modelling, system design, and experimental testing to develop and optimise the printing process. The project will involve the fabrication and characterisation of 3D multi-material metal structures, with emphasis on understanding interactions between dissimilar materials at the microscale.
This research will be carried out within a wider multidisciplinary team comprising academics, postdoctoral researchers, and technical staff, using the world-leading facilities available at CfAM. The project is both industrially relevant and of strong scientific interest, offering the successful candidate opportunities to engage with industrial partners, develop new skills across multiple disciplines, and disseminate research outcomes at national and international conferences.
Eligibility: First or upper second-class academic qualification in Engineering or Physical Sciences or a related discipline. Some experience with coding, e.g. MATLAB or LabVIEW, would be beneficial. Familiarity with multiphysics simulation tools is desirable. Evidence of creative thinking and the ability to work independently. Industry experience is advantageous.
Fully funded studentships, including a minimum tax-free stipend, are available for home fee-eligible students. International students are welcome to apply; however, due to funding restrictions, only exceptional candidates, for example, those with first-author publications, can be considered.
Please send a copy of your covering letter, CV, and academic transcripts to negar.gilani@nottingham.ac.uk. Please note applications without academic transcripts will not be considered.
Our University is a supportive, inclusive and caring community, and we encourage applications from a diverse range of backgrounds. The Faculty of Engineering was the first in the UK to be awarded an Athena SWAN Gold Award, in recognition of our commitment to supporting and advancing women’s careers in Engineering.
Closing date: applications will be evaluated on a rolling basis until a suitable candidate is appointed. Early applications are encouraged.
PhD studentship: Advanced Multi-Metal Additive Manufacturing for Future Energy and Technology S[...] in Nottingham employer: University Of Nottingham
Contact Detail:
University Of Nottingham Recruiting Team
StudySmarter Expert Advice 🤫
We think this is how you could land PhD studentship: Advanced Multi-Metal Additive Manufacturing for Future Energy and Technology S[...] in Nottingham
✨Tip Number 1
Network like a pro! Reach out to current PhD students or faculty members at the University of Nottingham. They can give you insider info about the programme and might even put in a good word for you.
✨Tip Number 2
Prepare for your interview by diving deep into the research being done at CfAM. Show us that you’re not just interested in the PhD, but that you’re genuinely excited about contributing to the cutting-edge work in multi-metal additive manufacturing.
✨Tip Number 3
Don’t forget to highlight any relevant experience you have with coding or multiphysics simulation tools. We want to see how your skills can directly contribute to the project, so make sure to showcase them!
✨Tip Number 4
Apply through our website for a smoother process! It’s the best way to ensure your application gets the attention it deserves. Plus, early applications are encouraged, so don’t wait until the last minute!
We think you need these skills to ace PhD studentship: Advanced Multi-Metal Additive Manufacturing for Future Energy and Technology S[...] in Nottingham
Some tips for your application 🫡
Craft a Compelling Cover Letter: Your cover letter is your chance to shine! Make sure to highlight your passion for additive manufacturing and how your background aligns with the PhD project. We want to see your personality and enthusiasm, so don’t hold back!
Tailor Your CV: When applying, tailor your CV to showcase relevant experience in engineering or physical sciences. Include any coding skills you have, like MATLAB or LabVIEW, as well as any industry experience. We love seeing how your unique journey fits into our vision!
Include Academic Transcripts: Don’t forget to attach your academic transcripts! Applications without them won’t be considered, so make sure they’re included when you send your application. It’s a simple step that can make a big difference.
Apply Early Through Our Website: We encourage you to apply early! Applications are evaluated on a rolling basis, so getting your materials in sooner rather than later can give you an edge. Head over to our website to submit your application and join us in this exciting research journey!
How to prepare for a job interview at University Of Nottingham
✨Know Your Stuff
Make sure you’re well-versed in the specifics of multi-metal additive manufacturing and Molten Metal Jetting. Brush up on recent advancements in the field and be ready to discuss how your background aligns with the project’s focus on high-melting-point metals.
✨Show Off Your Skills
If you have experience with coding or multiphysics simulation tools, don’t hold back! Prepare examples of how you've used these skills in past projects. This will demonstrate your technical capabilities and how they can contribute to the research at CfAM.
✨Think Creatively
The project requires creative thinking, so come prepared with ideas on how to tackle challenges in the design and development of the high-temperature crucible. Discussing innovative approaches will show your potential as a problem-solver.
✨Engage with the Team
Since this role involves working within a multidisciplinary team, be ready to talk about your teamwork experiences. Highlight any collaborative projects you've been part of and how you contributed to achieving common goals.