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Engineering - Mechanical & Biomedical - Structured

Course overview
The Structured PhD is a 4-year programme which offers added value to the core component of doctoral training. Students on this programme are offered disciplinary or dissertation specific modules, as well as generic and transferable skills designed to meet the needs of an employment market that is wider than academia.

The programme is flexible and student centred, as candidates choose their own pathways in consultation with their Supervisor and Graduate Research Committee.

New entrants may register for the programme from September to March each year
The thesis remains central to the award of the PhD and is weighted at 330 ECTs.

Students select appropriate skills modules in consultation with their Supervisor and/or Postgraduate Research Committee as follows: At least 10 ECTs in two of the three skills categories, and an overall total of at least 30 ECTs

Skills Categories:
(i) Problem Based Learning;
(ii) Publication / Dissemination;
(iii) Formal Training (from a range of Discipline-specific, Interdisciplinary and Generic modules).

Entry requirements

PhD—high Honours standard in the primary degree

Duration

Structured PhD, full-time—GYJ06 (four years duration)
)

Further enquiries

Jane Bowman
T +353 91 492 723
E jane.bowman@nuigalway.ie

Sharon Gilmartin
T +353 91 495 035
E sharon.gilmartin@nuigalway.ie

Mary Hardiman
T +353 91 492 223
E mary.hardiman@nuigalway.ie

Research areas

Areas of interest
Dr Mark Bruzzi
Deformation and Failure of Engineering materials
Fatigue failure of Solid Materials
Constitutive behaviour of biological materials
Development of Active Materials
Design and Development of Medical Devices

Dr Kathryn Cormican
Technology innovation Management
Product Design & Development
Enterprise Systems Design & Analysis

Ms Mary Dempsey
Business Process Engineering
Logistics
Operations Strategy
Emergency Planning

Dr Pat Donnellan
Health and safety management systems and risk management
Quality Management Systems

Dr John Eaton
Computational and experimental fluid dynamics.
Aerodynamics of flight vehicles, propulsion systems and components.
Aeroacoustics of turbulent flows.
Turbomachinery fluid dynamics.
Biofluid mechanics and flow systems.
Multidisciplinary design optimisation.

Mr Enda Fallon
Human Reliability in Health Care Systems
A Best Practice Occupational Health & Safety Management System for Networked Organisations in the Manufacturing Sector
Integrated Management Systems for Biomedical Device Manufacturing Companies
Health & Safety and Ergonomics in the Professional Athletes Workplace

Ms Martina Kelly
Ergonomics/Human Factors
Usability
Safety Management Systems
Risk Management in Regulated Environments

Professor Sean Leen
Computational solid mechanics
Structural integrity
Fatigue
Fretting and wear
Plasticity, creep and superplasticity
Modelling of manufacturing processes

Dr Pat McGarry
Multiscale cell and tissue mechanics
Active cell modelling
Biomechanics of hard and soft tissue
Cardiovascular and orthopaedic implant and device design.
Linear and non-linear computational method development and application in biomedical and materials engineering

Professor Peter McHugh
Computational micromechanics in the engineering analysis of complex materials and systems Biomechanics of hard and soft tissue
Multi-scale analysis methods for determination of structure-property relationships in biological and implanted materials
Computational methods in biomedical engineering applied to linear and non-linear problems, using implicit and explicit solution algorithms
Medical implant and device analysis and design.

Dr Laoise McNamara
Mechanical characterisation of biological tissues
Bone cell biology
Mechanobiology
Bone tissue regeneration in vitro
Finite element modelling
Adaptive modelling of biological processes

Dr Padraig Molloy
Development of technology based solutions for health and living, particularly systems that are relevant to the disabled and elderly.
Product and production systems design.
Built environment simulation and control systems development.

Professor Paul Nolan
Computer algebra in web-based course delivery.
Simulation based training using internet technologies.
Virtual reality prototyping of biomedical devices.

Dr Conchúr Ó Brádaigh
Processing of thermoplastic composite materials
Liquid moulding of thermoplastic composite using monomer systems
Mechanical testing of advanced composites
Recycling of composite materials
Application to innovative sporting, automotive and wind energy applications

Professor Abhay Pandit
Extracellular matrix development for soft tissue applications
Delivery of therapeutic (viral and non-viral) biomolecules delivery through novel tethering mechanisms
Tissue Engineering: Scaffold design, Biomimetics
Biomaterial enhanced repair and regeneration

Dr Nathan Quinlan
Biomedical fluid dynamics (pulmonary, cardiovascular and cellular applications)
Smoothed Particle Hydrodynamics - mesh-free Lagrangian modelling of fluid dynamics
Fluid dynamics of droplet formation
Needle-free intradermal and pulmonary devices
Doppler Global Velocimetry and Particle Image Velocimetry
Fluid dynamics and thermodynamics in high speed flows
Propeller and wing aerodynamics

Dr Wenxin Wang
Functional Dendritic Polymers for Controlled Drug Delivery and Tissue Engineering
Multifunctional Nanocarriers (nanoparticles, micelles, vesicles) for Therapeutic Biomolecular Delivery
Functional Biomaterials for Wound Healing
Temperature, PH and Ion Responsive Polymeric Materials
Controlled/Living Polymerisation Techniques

Dr Dimitrios Zeugolis
Biomaterials; Tissue Engineering; Bioengineering; Nanotechnology; Soft Tissue Repair / Regeneration (tendon, skin, cornea, nerve); Macromolecular Crowding; Extracellular Matrix Biology; Scaffold Stabilisation & Functionalisation; Directional Growth of Cells for Neotissue Formation; Sustained Release of Therapeutic Molecules; Drug Delivery / Release

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