or
Looking to list your PhD opportunities? Log in here.
Bio-inspired structures draw their primary inspiration from the sheer fecundity of nature in the diversity of forms and their constant evolution in order to better adapt to their environment. Over the past years, considerable achievements have been made towards establishing complex relationships between internal structures of bio-inspired materials and their mechanical properties. Nevertheless, there remains much to be understood about the underlying mechanisms.
The project aims at developing a computational framework for multi-scale modelling and simulation of bio-inspired engineering structures as part of a systematic approach to optimise form and function. Confidence in optimisation results and the subsequent structural performance derived from detailed computational modelling will be achieved through carrying out a variety of experimental tests in collaboration with research partners.
Applicants should have a first or upper second class UK honours degree (or equivalent) in solid mechanics, biomaterials, materials engineering or a related discipline. A Master’s level qualification is desirable but not essential. A strong background in advanced structural/material modelling and numerical simulations is required.
Interested candidates should send their application including a cover letter (explaining background and motivation), CV, and publication record (if applicable) preferably as one single PDF file to Dr Payam Khazaeinejad at p.khazaeinejad@kingston.ac.uk.
This project may be eligible for a Graduate School studentship for October 2025 entry - see the information at View Website
How to apply: see the Graduate School Studentships information at View Website and the information on the Faculty webpage GRS studentships for engineering, computing and the environment - Kingston University
Funding available
Stipend: .£21,237 per year for 3 years full-time; £10,618 part-time for 6 years
Fees: Home tuition fee for 3 years full-time or 6 years part-time
International students will be required to pay the difference between the Home and International tuition fee each year (£13,000 approx for 2025-26)
Based on your current searches we recommend the following search filters.
Check out our other PhDs in London, United Kingdom
Start a New search with our database of over 4,000 PhDs
Based on your current search criteria we thought you might be interested in these.
Multi-Scale Modelling of the Fatigue and Fracture of Aerospace Alloys
University of Sheffield
Techniques of improvement of fracture toughness in composites and development of multi-scale computational models for the simulation of the crack propagation and prediction of the residual strength
University of Southampton
ML-enhanced multi-scale modelling of hydrogels
University of Bristol