Brunel University, London, England invites online Application for number of Fully Funded PhD Degree at various Departments. We are providing a list of Fully Funded PhD Programs available at Brunel University, London, England.
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: Development of natural-ageing-resistant, heat-treatable lean aluminium alloys for automotive applications
Applications are invited for one full-time EPSRC Industrial CASE (ICASE) PhD studentship for the project “Development of natural-ageing-resistant, heat-treatable lean aluminium alloys for automotive applications”
The Brunel Centre for Advanced Solidification Technology (BCAST) is a specialist research centre in metallurgy with a focus on the processing of metallic materials for lightweighting applications. See www.brunel.ac.uk/bcast for more information. The project is sponsored by Constellium, a leading global manufacturer of high-quality, technically advanced aluminium products and systems.
Successful applicants will receive an annual stipend (bursary) starting from approximately £23,000 plus payment of their full-time home tuition fees for a period of up to 48 months (4 years).
Lean automotive aluminium with a lower concentration of alloying elements offers moderate strength and relatively high productivity compared to its highly alloyed counterparts. However, automotive aluminium alloys are susceptible to natural ageing at room temperature, resulting in the formation of clusters from a supersaturated solid solution produced after fast quenching from solution heat treatment. This leads to increased hardness, which affects both formability and the subsequent precipitation hardening process. In addition, promoting a circular economy in the aluminium industry by increasing recyclability and using more recycled aluminium is essential for saving resources, reducing waste and creating a more sustainable future.
This project will focus on understanding the effects of vacancy-trapping element addition and quench rate sensitivity of lean Al-Mg-Si-based alloys with varying level of recycled content on the natural ageing response at room temperature and precipitation hardening behaviour during artificial ageing treatment, with the aim of developing lean recyclable Al-Si-Mg-based alloys that are resistant to natural ageing, tolerant of slower quenching rates, and capable of offering high productivity and moderate mechanical properties for automotive applications.
Deadline : 05/09/2025
(02) PhD Degree – Fully Funded
PhD position summary/title: Prediction of Mechanical Properties of Extruded Aluminium Profiles Using Machine Learning and Microstructural Insights
Applications are invited for one full-time EPSRC Industrial CASE (ICASE) PhD studentship for the project “Prediction of Mechanical Properties of Extruded Aluminium Profiles Using Machine Learning and Microstructural Insights”
The Brunel Centre for Advanced Solidification Technology (BCAST) is a specialist research centre in metallurgy with a focus on the processing of metallic materials for lightweighting applications. See www.brunel.ac.uk/bcast for more information. The project is sponsored by Constellium, a leading global manufacturer of high-quality, technically advanced aluminium products and systems.
Successful applicants will receive an annual stipend (bursary) starting from approximately £23,000 plus payment of their full-time home tuition fees for a period of up to 48 months (4 years).
Machine Learning (ML) has emerged as a powerful tool for predicting mechanical properties of aluminium alloys, offering the potential to accelerate materials design and optimisation. By leveraging large datasets and complex algorithms, ML models can uncover intricate relationships between composition, processing parameters, and resulting properties. However, two significant challenges persist in this domain. First, the extrapolation of ML predictions beyond the range of existing data remains problematic, as models often struggle to accurately forecast properties for new alloy compositions or processing conditions. Second, capturing and incorporating microstructural features into ML models presents another hurdle. Microstructure plays a crucial role in determining mechanical properties, yet integrating this information into predictive models is complex.
Deadline : 05/09/2025
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(03) PhD Degree – Fully Funded
PhD position summary/title: Understanding crush behaviour of recycled 6xxx Aluminium alloys subjected to different thermomechanical treatments
Applications are invited for one full-time EPSRC Industrial CASE (ICASE) PhD studentship for the project “Understanding crush behaviour of recycled 6xxx Aluminium alloys subjected to different thermomechanical treatments”
The Brunel Centre for Advanced Solidification Technology (BCAST) is a specialist research centre in metallurgy with a focus on the processing of metallic materials for lightweighting applications. See www.brunel.ac.uk/bcast for more information. The project is sponsored by Constellium, a leading global manufacturer of high-quality, technically advanced aluminium products and systems.
Successful applicants will receive an annual stipend (bursary) starting from approximately £23,000 plus payment of their full-time home tuition fees for a period of up to 48 months (4 years).
The net-zero and sustainability targets, as well as export cost, mean that there is an increased need to rely on a new class of alloys with higher recycle content that must be developed for both high-strength and crash-resistant alloys. Due to the differences in minor impurity additions in the recycled alloys compared with the alloys based on primary alloys, there is a need to develop new, and modify the current thermo-mechanical process used to strengthen the current generation of crush alloys. The programme will use different thermomechanical processing paths, including heat treatment and more complex paths, including deformation and ageing and other non-conventional paths to provide the best combination of crush performance and strength along with energy absorption properties from the new generation of high-recycle-content crush alloys. The main objective of the project is to understand the deformation behaviour of the high-recycle-content crush alloys and the role of tramp elements in controlling the final property profiles. The understanding developed here will provide pathways to exploit the alloy composition and thermomechanical treatments to optimise the property profiles of the next generation crush alloys and allow the full exploitation of the various tramp elements found in the recycled alloys to maximise the property profiles.
Deadline : 05/09/2025
(04) PhD Degree – Fully Funded
PhD position summary/title: Best practices for minimising dross formation during melting of scrap aluminium
Applications are invited for one full-time EPSRC Industrial CASE (ICASE) PhD studentship for the project “Best practices for minimising dross formation during melting of scrap aluminium”.
BCAST is a specialist research centre in metallurgy with a focus on processing metallic materials for lightweighting applications. The project is in collaboration with Constellium, a global leading manufacturer of high-quality, technically advanced aluminium products and systems.
Successful applicants will receive an annual stipend (bursary) starting from approximately £23,000 plus payment of their full-time home tuition fees for a period of up to 48 months (4 years).
In the aluminium recycling industry, dross formation represents a substantial material loss, with up to 5-10% of the charge potentially lost as dross. Dross primarily consists of aluminium oxides, impurities, and trapped metal, forming due to reactions between molten aluminium and atmospheric oxygen. Various factors contribute to excessive dross formation, including scrap condition, furnace type, melting cycle parameters, heating sources, and furnace atmosphere. Effective control of dross formation can improve metal recovery, reduce environmental impact, and lower production costs. Different scrap sources, such as end-of-life products, machining scrap, and production returns, present varying levels of contamination and oxide coatings, which can lead to inconsistencies in dross formation. By studying surface characteristics of scrap from various sources and implementing controlled preheat and environment, we can significantly reduce the oxidation of molten aluminium and minimise dross formation.
Deadline : 05/09/2025
About Brunel University, London, England- Official Website
Brunel University London (BUL, and often known simply as Brunel) is a public research university located in the Uxbridge area of London, England. It was founded in 1966 and named after Isambard Kingdom Brunel, the Victorian engineer and pioneer of the Industrial Revolution. In June 1966, Brunel College of Advanced Technology was awarded a royal charter and became Brunel University; in 2014 the university formally adopted the name Brunel University London (BUL). The university is considered a British plate glass university.
Brunel is organised into three colleges, a structure adopted in August 2014. Brunel’s three constituent Academic Colleges include the College of Business, Arts and Social Sciences; the College of Engineering, Design and Physical Sciences; and the College of Health, Medicine and Life Sciences.
Brunel has over 16,150 students and 2,500 staff, and an annual income of £271.3 million (2021–22), of which £22.4 million was from research grants and contracts, with an expenditure of £311.9 million. The university won the Queen’s Anniversary Prize in 2011. BUL is a member of the Association of Commonwealth Universities, the European University Association, and Universities UK.
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