PDA

View Full Version : PhD Studentship 1: "Development of a Mechanistic Wear Model forAnalysing the Performance of Total Knee Replacement",University of Southampton, UK



glimbert55
06-01-2009, 03:45 AM
************************************************** ************************************************** ***************
PhD Studentship: "Development of a mechanistic wear model for analysing the performance of total knee replacement"
************************************************** ************************************************** ***************
Sponsored by DePuy International


national Centre for Advanced Tribology at Southampton (nCATS) &
Bioengineering Sciences Research Group School of Engineering Sciences, University of Southampton, UK
www.soton.ac.uk/ses/research/nCATS
www.soton.ac.uk/ses/research/bioeng


Ref: SES-73-084
****************
A PhD studentship is immediately available in the national Centre for Advanced Tribology at Southampton (nCATS) and Bioengineering Sciences Research Group, School of Engineering Sciences (SES), which fully covers University tuition fees (at EU/UK level only**) and provides a tax-free bursary of 12,940 per year, rising annually (each October) in line with the UK Government (EPSRC) recommended rate, for a 3-year duration.
**EU/UK fees 3300 p.a., overseas fee 13,480 p.a. (all figures subject to increase).
Note for overseas applicants: There is NO additional funding available for overseas fees, so you will be required to provide funding from other sources to pay the fees difference (10,180 for 2008/09). If you are not able to fund the fees difference, then it will not be possible to consider your application.


PROJECT DESCRIPTION
*******************
Wear of polyethylene is the limiting factor influencing the longevity of total knee replacement (TKR). Currently wear of TKR designs is assessed through experimental tests, but these are expensive, time consuming and as a consequence are only able to assess a limited range of activities. Recently, computational tools have been developed to simulate wear and the initial results look promising. These fast and efficient tools provide greater flexibility and allow a more rigorous analysis of the wear potential for new implant designs. However, the wear model used in the computational studies is relatively simple, based around an adaptation of a wear algorithm which does not adequately capture the physics of the wear process.
The aim of this project is to develop a mechanistic model of the wear process and to validate this against experimental data from pin-on-disk machines through to knee wear machines.

The project will involve a close interaction with the sponsoring company (DePuy International), the Schools of Mathematics, Engineering Sciences and Chemistry and therefore a multi-disciplinary approach to this research will be essential.
The ideal candidate will have a background/interest in continuum mechanics, biomechanics, biophysics, applied mathematics, mathematical and computational modelling techniques, particularly finite element methods (structural/multiphysics), multi-body dynamics and molecular dynamics simulations. Ability to program (C, Fortran, Matlab, Python) and experience in a finite element application such as ABAQUS, COMSOL, ANSYS, MARC and/or mathematics packages such as Mathematica/Maple/Matlab would be a definite advantage.

KEYWORDS
********
Wear, medical polymer, total knee joint replacement, multi-scale, multi-physics, continuum mechanics, nanomechanics, tribology, modelling, finite element methods, molecular dynamics simulations, pin on disc



ABOUT THE SCHOOL OF ENGINEERING SCIENCES, UNIVERSITY OF SOUTHAMPTON
************************************************** *****************
The School of Engineering Sciences at the University of Southampton has an international reputation for research excellence. In the 2008 UK Research Assessment Exercise, the School (in collaboration with the Institute of Sound & Vibration Research) ranked second in the total number of Unit 28 academics whose research was deemed world leading or internationally excellent.

The national Centre for Advanced Tribology at Southampton (nCATS) has recently been created from a 10M initiative, funded by EPSRC, to prepare the next generation of engineers to underpin tribology in the UK. nCATS will exploit strong interdisciplinary collaborations across the University (marine biology, chemistry, electrochemistry, mechanical engineering, medicine, statistics, applied mathematics and electronics) to develop smart / multifunctional surfaces and predictive tools for advanced tribological interactions.
A strategic research alliance with over 25 leading international industry partners is also in place to explore the critical tribological design issues and enable surface interactions to occur with minimal energy loss and impact on the environment.

The School is a diverse community which is committed to creating an inclusive working and learning environment in which all individuals are equally treated and valued, and can achieve their potential. The School considers all studentship applications in relation to academic criteria and regardless of the individual's race, nationality, gender, or belief.


ENTRY REQUIREMENTS
******************
Candidates will have a first class or upper second class degree (or its equivalent) in relevant disciplines, e.g. mechanical engineering, biomechanics, applied mathematics, physics.



APPLICATION PROCESS
*******************
The studentship is at the standard EPSRC (Engineering and Physical Sciences Research Council) rate, commencing as soon as possible.

Closing date for applications: A rolling deadline applies

If you wish to discuss any details of the project informally, please contact:
Dr. Georges Limbert
nCATS & Bioengineering Science Research Group
Email: g.limbert@soton.ac.uk , Tel: +44 (0) 2380 59 2381.

How to apply: An on-line application form (or hard copy version) with guidance notes can be accessed here: http://www.soton.ac.uk/ses/courses/pg/pgapply.html


Please read the notes carefully before applying. Applications will only be considered on receipt of a completed application form.

Please send supporting documents by email. If you are unable to send them by email, please send by fax or post to the following address:
Julia Zimbler, Postgraduate Admissions, Graduate School Office, School of Engineering Sciences, Room 5013, Lanchester Building, University of Southampton, Highfield, Southampton, SO17 1BJ, UK.
Email: jfz@soton.ac.uk , Fax: +44 (0) 2380 59 5167.



Dr. Georges Limbert Lecturer

National Centre for Advanced Tribology at Southampton (nCATS) &
Bioengineering Sciences Research Group
School of Engineering Sciences
University of Southampton, Highfield Campus
Southampton SO17 1BJ, UK

Tel: +44 (0)23 8059 2381
Fax: +44 (0)23 8059 7051
Email: g.limbert@soton.ac.uk
Web: www.soton.ac.uk/ses/research/nCATS
Web: www.soton.ac.uk/ses/research/bioeng
Web: www.icss.soton.ac.uk/