Dr Rhys Pullin
Prosiectau fel Prif Ymchwiliwr
- 2012 IRAD proposals composite panel manufacture and test (01.05.2012 - 30.06.2013)
- Acoustic approaches for digital asset management - Phase 1 (01.01.2020 - 31.12.2020)
- Acoustic approaches for digital asset management test and report (01.01.2021 - 30.09.2021)
- Acousto-ultrasonic testing of resistance of armour (A-ULTRA) (01.09.2016 - 01.11.2017)
- Assessment of acoustic emission technology in thick walled pipe structures (05.01.2015 - 30.09.2015)
Prosiectau fel Cyd-Ymchwiliwr
- Automated fatigue crack detection for structural health monitoring of metallic aerospace structures (03.09.2018 - 01.03.2021)
- Methodology platform for prediction of damage events for self-sensing aerospace panels subject to real load conditions (01.07.2013 - 30.06.2016)
- A lightweight structural health monitoring system (01.07.2009 - 30.09.2012)
- Analysis of loads on steering column for Furore kit car (30.04.2010 - 31.05.2010)
- Assessment of fatigue failure (15.07.2009 - 12.08.2009)
Setiau Data Ymchwil
- 3D laser vibrometry point data and 3D Local interaction simulation approach data of a aluminium stiffened panel with and without disbonds - Marks RA, Featherson CA, Clarke A, et al. (2017). Cardiff University. 10.17035/d.2017.0043078392. Structural Health Monitoring Sensors
- Digital Image Correlation (DIC) data of electrosurgical vessel sealing - Wyatt HL, Pullin R, Yang TH, et al. (2016). Cardiff University. 10.17035/d.2016.0009096673. Surgical devices Medical and health interface Biomechanics of Soft tissue - Experimental
- Gear tooth root fatigue test monitoring with continuous acoustic emission - Crivelli D, Clarke A, Mccory JP, et al. (2017). Cardiff University. 10.17035/d.2017.0032930333. Mechanical engineering Structural Health Monitoring Sensors
- Steady state wave-field response for aluminium structures of varying thickness - data - Purcell FAF, Pullin R, Eaton M, et al. (2020). Cardiff University. 10.17035/d.2020.0103586142. Non-destructive Testing/Evaluation - Ultrasound Techniques
- Understanding the mechanism of acoustic emission generation due to surface asperity interaction in mixed lubrication conditions - Clarke A, Hutt S, Cockerill A, et al. (2016). Cardiff University. 10.17035/d.2016.0008118727. Engineering Dynamics and Tribology