Research Studentship in Reactive Burn Modelling
Research Studentship in Reactive Burn Modelling
4-year DPhil studentship
Supervisors: Dr Simone Falco, Prof Daniel Eakins
The ability to simulate initiation and detonation effects within energetic materials is a significant capability gap within the energetics field. Whilst many reactive burn models have been developed to simulate this behaviour, they are generally designed for ideal explosives and are mostly engineering models fitted to test data, which are therefore only useable within a narrow range of scenarios. These limitations result in the requirement of large number of high-cost experiments being conducted to populate the models.
The development of a physically-based model of energetic material will overcome the current limitations and provide predictive capabilities that are crucial for the understanding of the behaviour of novel (or damaged) materials. To provide the required level of accuracy the models need capture the topological features and their effect on the dynamic response of the material.
The successful candidate will study the behaviour of energetic materials both at the microscopic (i.e. crystal deformation and failure) and macroscopic levels. Numerical techniques for the generation of digital twins and modelling the thermomechanical response of energetic materials will be developed, building on the extensive capabilities within the Impact and Shock Mechanics Laboratory. There will be the possibility to explore novel modelling approaches (e.g. SPG) as well as the use of machine learning, advanced computing, statistical modelling to explore the stochastic response to complex scenarios.
This project offers the opportunity to undertake ground-breaking research in the field of shock-physics, involving elements of materials science, mechanics, and ultrafast diagnostics. You will be based at Begbroke Science Park as part of the Impact and Shock Mechanics group, composed of more than 30 members including 15 students.
Eligibility
This studentship is fully funded by Dstl, and is open to UK student (full award – fees plus stipend).
Award Value
Course fees are covered at the level set for UK students (c. £10,070 p.a.). The stipend (tax-free maintenance grant) is c. £20,780 p.a. for the first year, and at least this amount for a further three years.
Candidate Requirements
Prospective candidates will be judged according to how well they meet the following criteria:
- A first class honours degree in Engineering, Physics or Materials Science
- Excellent English written and spoken communication skills
The following skills are also highly desirable:
- Ability to program in Matlab, Python or similar
- Strong laboratory-based skills
Application Procedure
Informal enquiries are encouraged and should be addressed to Prof Daniel Eakins (daniel.eakins@eng.ox.ac.uk).
Candidates must submit a graduate application form and are expected to meet the graduate admissions criteria. Details are available on the course page of the University website.
Please quote 25ENGMM_DE5 in all correspondence and in your graduate application.
Application deadline: noon on 11 April 2025
Start date: October 2025