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Metallurgy PhD Projects, Programmes & Scholarships
We have 54 Metallurgy PhD Projects, Programmes & Scholarships
A PhD in Metallurgy offers an exciting opportunity to delve into the world of metals and alloys, and explore their properties, processing techniques, and applications.
What's it like to study a PhD in Metallurgy?
Studying a PhD in Metallurgy allows you to become an expert in the field of metals and their alloys. You will have the chance to conduct cutting-edge research, investigating the structure, properties, and performance of various metallic materials. This may involve studying the microstructure of metals, exploring different processing techniques, or developing new alloys with enhanced properties.
During your PhD journey, you will work closely with experienced supervisors and researchers, who will guide and support you in your research endeavors. You will have access to state-of-the-art laboratories and advanced equipment, enabling you to carry out experiments and analyses to further your understanding of metallurgical phenomena.
In addition to your research work, you will also have the opportunity to attend conferences, present your findings, and network with experts in the field. This will help you establish connections and stay up-to-date with the latest advancements in metallurgy.
Entry requirements for a PhD in Metallurgy
To pursue a PhD in Metallurgy, you will typically need a strong academic background in materials science, metallurgy, or a related discipline. Most universities require applicants to hold a minimum of a 2.1 Honours degree, although some may consider candidates with a lower classification if they have relevant research experience or a Masters degree.
PhD in Metallurgy funding options
Funding for PhDs in Metallurgy may be available from various sources, including governments, universities and charities, business or industry. See our full guides to PhD funding for more information.
PhD in Metallurgy careers
A PhD in Metallurgy opens up a range of exciting career opportunities. Graduates can find employment in industries such as aerospace, automotive, energy, and manufacturing, where their expertise in metallurgy is highly valued. You could work as a materials engineer, metallurgist, or research scientist, contributing to the development of new materials, improving manufacturing processes, or ensuring the quality and reliability of metal components.
Furthermore, a PhD in Metallurgy can also lead to academic positions, allowing you to pursue a career in teaching and research at universities or research institutions. This provides the opportunity to inspire future generations of metallurgists and contribute to the advancement of the field.
In conclusion, studying a PhD in Metallurgy offers a fascinating journey into the world of metals and alloys. It equips you with the knowledge and skills to make significant contributions to the field, and opens up a wide range of career opportunities in various industries. So, if you have a passion for metals and a desire to push the boundaries of metallurgical knowledge, a PhD in Metallurgy may be the perfect path for you.
Mass transport and adsorption with a prospect of direct mineral extraction and use of artificial intelligence
These projects are open to students worldwide, but have no funding attached. Therefore, the successful applicant will be expected to fund tuition fees at the relevant level (home or international) and any applicable additional research costs. Read more
Multiscale investigation of corrosion deposition in high temperature high pressure water for nuclear power plants
Saturn_Nuclear_CDT. We are pleased to present an exciting PhD opportunity in collaboration with Rolls-Royce, providing a unique chance for candidates to participate in a multiscale investigation of corrosion deposition in high-temperature, high-pressure water for nuclear power plants. Read more
Iron oxyhydroxide nanoparticle crystallisation and transformation during radioactive effluent treatment: Application to the Enhanced Actinide Removal Plant
Saturn_Nuclear_CDT. The treatment of radioactive effluents is a key process in the decommissioning of nuclear sites in the UK and worldwide. Read more
Fluid flow in porous media with application to CCUS and energy storage
These projects are open to students worldwide, but have no funding attached. Therefore, the successful applicant will be expected to fund tuition fees at the relevant level (home or international) and any applicable additional research costs. Read more
Computational model of the effect of hydrogen on steels
Hydrogen (H. 2. ), produced by renewable energy (green), thermochemical conversion of biomass (low-carbon) or methane pyrolysis (turquoise, low-carbon), is expected to be a key enabler of the energy transition, both as an energy carrier (LHV~242 kJ/mol) that does not emit CO. Read more
EPSRC DTP - Mechanisms of Hydrogen Embrittlment in latest generation high strength aluminium alloys
Al-Mg-Zn-Cu (7xxx) series aluminium represent the strongest light alloys that have been developed. Unfortunately as higher strength and toughness materials (with good fatigue and corrosion properties) are developed they become increasingly susceptible to Hydrogen embrittlement (HE). Read more
PhD studentship: UMBRELA - Understanding of Multiaxial Behaviour of Emerging Lightweight Alloys for sustainable mobility.
Award Summary. 100% fees covered, and a minimum tax-free annual living allowance of £19,237 (2024/25 UKRI rate). Additional project costs will also be provided. Read more
Manufacture and Modelling of Mechanical Metamaterials
Mechanical Metamaterials are an emerging area at the forefront of mechanical engineering and materials research, with applications across healthcare, blast and crash protection and load bearing. Read more
EPSRC DTP - Numerical Investigation and Uncertainty Quantification of Composite Flexible Risers
Pipelines, traditionally constructed from steel, form the backbone of the oil and gas industry, facilitating crucial transportation in both onshore and offshore operations. Read more
(UoM - IISc Bangalore) Environmentally friendly grain refinement of engineering alloys by small strain oscillatory deformation
Aim. Grain-size is a key feature of high performance alloys, but grain refinement processes are usually expensive because they use high temperatures and strains. Read more
Mechanistic modelling of hydrogen-material interactions
Oxford’s Mechanics of Materials Lab is seeking a PhD (DPhil) student to develop a new generation of mechanistic models to understand the fatigue crack initiation behaviour of metals in hydrogen environments. Read more
Transmutation effects on structural integrity in plasma-facing tungsten materials
Tungsten (W) is currently the frontrunner candidate as armour material for plasma-facing structural components in fusion tokamak technology. Read more
Creep behaviour of high-temperature materials in helium environments of future nuclear power plants
Structural materials in nuclear power plants are commonly operating at elevated temperatures in aggressive local environments and complex mechanical stress conditions. Read more
Novel Process Control to Mitigate Defects in Additively Manufactured Al-Alloys
Novel Process Control to Mitigate Defects in Additively Manufactured Al-Alloys. This project is an exciting opportunity to undertake industrially linked research in partnership with the Manufacturing Technology Centre (MTC). Read more