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Nuclear Engineering (alloy) PhD Projects, Programs & Scholarships

We have 9 Nuclear Engineering (alloy) PhD Projects, Programs & Scholarships

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  Exploring the processes of nucleation and growth in the oxidation of zirconium alloy fuel rods
  Dr P Shanthraj, Dr C Race
Applications accepted all year round

Funding Type

PhD Type

The pellets of uranium oxide fissile fuel in pressurised water reactors are contained within tubes of zirconium alloy - the fuel clad.
  Making the link between weld process and long term in-service performance: multi-scale modelling and characterisation for low alloy steel welds in advanced nuclear reactors
  Prof M C Smith, Dr J Francis
Applications accepted all year round

Funding Type

PhD Type

High-value, low-volume, safety-critical metallic components in nuclear plants almost invariably contain welds. Welding is an aggressive process that causes microstructural changes in the weld and adjacent heat affected zone, develops residual stresses and structural distortion, and changes the material properties.
  EPSRC CDT in Nuclear Energy - GREEN (Growing skills for Reliable Economic Energy from Nuclear)

Funding Type

PhD Type

The GREEN CDT is a consortium of the five universities of Lancaster, Leeds, Liverpool, Manchester and Sheffield, which aims to train the next generation of expert nuclear scientists and engineers.
  Investigating hydride growth mechanisms in zirconium alloys
  Research Group: Metallurgy and Corrosion
  Dr P Shanthraj, Prof M Preuss
Applications accepted all year round

Funding Type

PhD Type

Zirconium alloys are most commonly used as the fuel cladding material in nuclear reactors. Hydrogen uptake in these alloys occurs as a result of aqueous corrosion during service, and the absorbed hydrogen precipitate out of solution as hydrides once its solubility limit in the alloy is exceeded.
  EPSRC CDT in Nuclear Energy - GREEN (Growing skills for Reliable Economic Energy from Nuclear)

Funding Type

PhD Type

The GREEN CDT is a consortium of the five universities of Lancaster, Leeds, Liverpool, Manchester and Sheffield, which aims to train the next generation of expert nuclear scientists and engineers.
  EPSRC CDT in Nuclear Energy - GREEN (Growing skills for Reliable Economic Energy from Nuclear)

Funding Type

PhD Type

The GREEN CDT is a consortium of the five universities of Lancaster, Leeds, Liverpool, Manchester and Sheffield, which aims to train the next generation of expert nuclear scientists and engineers.
  EPSRC CDT in Nuclear Energy - GREEN (Growing skills for Reliable Economic Energy from Nuclear)

Funding Type

PhD Type

The GREEN CDT is a consortium of the five universities of Lancaster, Leeds, Liverpool, Manchester and Sheffield, which aims to train the next generation of expert nuclear scientists and engineers.
  EPSRC CDT in Nuclear Energy - GREEN (Growing skills for Reliable Economic Energy from Nuclear)

Funding Type

PhD Type

The GREEN CDT is a consortium of the five universities of Lancaster, Leeds, Liverpool, Manchester and Sheffield, which aims to train the next generation of expert nuclear scientists and engineers.
  Modelling of primary water stress corrosion cracking (PWSCC) of nickel based alloys (NBAs) in nuclear (PWR) primary coolant
  Prof M C Smith, Dr A Jivkov
Applications accepted all year round

Funding Type

PhD Type

Nickel based alloy (NBA) materials and their associated weld metals are of interest to new build and advanced nuclear reactors due to their superior structural performance when compared with traditional steel materials.
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