Organisation/Company: Swansea University
Department: Central Research
Field: Engineering
Researcher Profile: First Stage Researcher (R1)
Positions: PhD Positions
Country: United Kingdom
Application Deadline: 31 Mar 2025 - 11:59 (Europe/London)
Type of Contract: Temporary
Job Status: Full-time
Hours Per Week: 35
Offer Starting Date: 1 Jul 2025
Is the job funded through the EU Research Framework Programme? Not funded by an EU programme
Is the Job related to staff position within a Research Infrastructure? No
Offer Description
Heart valve (HV) disease is a major cause of cardiac malfunction with high mortality if left untreated. Over 200,000 patients/year receive bioprosthetic HV replacements, which exhibit superior haemodynamic behaviour and enable transcatheter replacements. However, the material and geometric design of these highly flexible structures is extremely challenging. A detailed understanding of HV loading and the corresponding mechanical strains and stresses is essential to ensure device longevity (37 million cardiac cycles per year!), whilst ensuring optimal cardiovascular function for the patient.
This project proposes to integrate state-of-the-art image-based measurement techniques with computational models for a holistic characterisation of HV fluid-structure interaction behaviour. The HVs will be tested in a pulsatile flow mock loop that simulates cardiovascular flow and pressure waveforms. The PhD student will exploit a combination of digital image correlation (DIC) and particle image velocimetry (PIV) methods to robustly characterise the biomechanical behaviour of the HVs. DIC is a non-contact optical measurement technique that can capture full-field displacement and strain on HVs. DIC is highly adaptable and is widely applied in mechanical testing when complex, non-uniform strain fields are expected and where point-based measurements or hard-wired gauges are impractical and insufficient. A multi-camera setup will be used to accurately capture detailed strain fields where the HV rotates and deforms from closed to open state and back. The 4D PIV system will also allow dynamic coherent flow structures to be captured, enabling a more complete view on valve performance.
A computational workflow may be integrated alongside these experiments to create a powerful framework to aid future design development. The Team at the Biomedical Engineering Simulation & Testing Lab (BEST Lab), led by Dr Arora and Dr van Loon, are actively pushing the boundaries of DIC, as well as particle image velocimetry (PIV) and digital volume correlation (DVC) amongst other image-based experimental mechanics methods. Measurements in challenging conditions are a focus of the Team for over 15 years. The challenge of combined imaging methods may require bespoke and novel solutions to the imaging setup. Challenges with strain corrections due to variable distortions, pattern durability, application compatibility and technique effectiveness under controlled cardiovascular flow loading needs to be pursued in this studentship. Such challenges working in complex measurement environments and translation from the lab to industrial applications have been performed by the Team over the years. This project will contribute to extending this capability, developing novel measurements with close collaboration with the industrial partner.
The BEST Lab forges a synergy of computational and experimental expertise to deliver fundamental insight, novel technologies, and translational research solutions. The BEST Lab provides a space for interdisciplinary researchers to grow ideas from concept through to manufacture, instrumentation, and testing, alongside advanced computational mechanics, machine learning, and data analytics workflows. The dynamic group (over 20 PGR students and Research Staff) leverages expertise in both simulation and testing to deliver high-quality research outputs, as well as services and products, to meet the unique needs of our collaborators in industry. Therefore, there will be scope for the student to gain wider skills to work between teams in virtual testing and modelling alongside the experimental research focus.
The sponsoring company, Boston Scientific Ltd., will be engaged throughout in developing ideas and applications with regular reporting expected throughout the project by the successful candidate. Collaborating research groups and stakeholders from across disciplines will regularly engage throughout the studentship to broaden the development opportunities of the candidate. By the end of the project, the candidate will have acquired a portfolio of skills and external collaborators that will provide a strong footing for future careers in either academia or industry. There is a wide range of expertise within the BEST Lab to support on specialist topics in this project as well as interdisciplinary skills development of the successful candidate.
English Language:
IELTS 6.5 Overall (5.5+ each comp.) or Swansea University recognised equivalent. Full details of our English Language policy, including certificate time validity, can be found here.
ATAS:
Please note that the programme requires some applicants to hold ATAS clearance, further details on ATAS scheme eligibility are available on the UK Government website. ATAS clearance is NOT required to be held as part of the scholarship application process. Successful award winners (as appropriate) are provided with details as to how to apply for ATAS clearance in tandem with a scholarship course offer.
Additional Information
Scholarship open to UK and International fee eligible students.
This scholarship covers the full cost of tuition fees and an annual stipend at UKRI rate (currently £19,237 for 2024/25). Additional research expenses of up to £1,000 per year will also be available.
Eligibility criteria:
Applicants for PhD must hold an undergraduate degree at 2.1 level (or Non-UK equivalent as defined by Swansea University) in Engineering or similar relevant science discipline. We also welcome applications from graduates in computational science or mathematics. See - Country-specific Information for EU and International Candidates.
International Students:
Swansea University is pleased to offer the Swansea University International Postgraduate Research Excellence Scholarship (SUIPRES). This is a competitively awarded Scholarship open to overseas PhD and Professional Doctorate applicants eligible for the international rate of tuition fees who can demonstrate excellence in academic achievement. The SUIPRES Scholarship covers the difference between the International and the Home tuition fee for the duration of the PhD/Professional Doctorate programme. Successful candidates will be charged fees aligned to the UK rate per year, this is £4,786 for 2024/5 increasing annually in line with UKRI (United Kingdom Research and Innovation), usually 3%. The scholarship will be offset against your tuition fee liability. All International applications will be considered for a SUIPRES Scholarship. You will be informed whether a SUIPRES Scholarship will be offered within your offer letter.
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