Publications

Journal Articles

  1. & Application of the small punch test to determine the fatigue properties of additive manufactured aerospace alloys. MATEC Web of Conferences 165, 02003
  2. Creep strength and minimum strain rate estimation from Small Punch Creep tests. Materials Science and Engineering: A
  3. & High Temperature Deformation Mechanisms in a DLD Nickel Superalloy. Materials 10(5), 457
  4. & The influence of phase angle, strain range and peak cycle temperature on the TMF crack initiation behaviour and damage mechanisms of the nickel-based superalloy, RR1000. International Journal of Fatigue
  5. & The contribution of small punch testing towards the development of materials for aero-engine applications. Theoretical and Applied Fracture Mechanics 86, 69-77.
  6. & Structural Integrity of an Electron Beam Melted Titanium Alloy. Materials 9(6), 470
  7. & Modelling the small punch tensile behaviour of an aerospace alloy. Materials Science and Technology, 1-9.
  8. Creep lifing methodologies applied to a single crystal superalloy by use of small scale test techniques. Materials Science and Engineering: A 636, 529-535.
  9. & An analysis of small punch creep behaviour in the γ titanium aluminide Ti–45Al–2Mn–2Nb. Materials Science and Engineering: A 626, 263-274.
  10. Elevated Temperature Creep Deformation of a Single Crystal Superalloy through the Small Punch Creep Method. Materials Science & Engineering A 626, 330-337.
  11. Non-Invasive Temperature Measurement and Control Techniques under Thermo-Mechanical Fatigue Loading. Materials Science and Technology 30(15), 1862-1876.
  12. Prediction of fatigue lives at stress raising features in a high strength steel. International Journal of Fatigue 59, 301-308.
  13. A review of thermo-mechanical fatigue behaviour in polycrystalline nickel superalloys for turbine disc applications. Materials at High Temperatures 30(1)-12.
  14. An Empirical Approach to Correlating Thermo-Mechanical Fatigue Behaviour of a Polycrystalline Ni-Base Superalloy. Materials 6(11), 5275-5290.
  15. An analysis of modern creep lifing methodologies in the titanium alloy Ti6-4. Materials Science and Engineering: A 577, 114-119.
  16. A model for time dependent strain accumulation and damage at low temperatures in Ti–6Al–4V. Materials Science and Engineering: A 574, 130-136.
  17. Plain and notched fatigue in nickel single crystal alloys. International Journal of Fatigue 31(11-12), 1709-1718.
  18. The effect of microstructure and texture on mechanical properties of Ti6-4. International Journal of Fatigue 31(11-12), 2022-2030.

Book Chapters

  1. & Small Punch Creep. In Tomasz Tanski, Marek Sroka and Adam Zielinski (Ed.), Creep. InTech Open Science.
  2. Investigation of Non-Destructive Evaluation Methods Applied to Oxide/Oxide Fiber Reinforced Ceramic Matrix Composite. In Mechanical Properties and Performance of Engineering Ceramics and Composites VII. -67).

Conference Contributions

  1. & (2017). A Novel Approach to Small Punch Fatigue Testing. Presented at Key Engineering Materials,, 61-69. doi:10.4028/www.scientific.net/KEM.734.61
  2. & (2017). Mechanical Property Characterisation of Electron Beam Melted (EBM) Ti-6Al-4V via Small Punch Tensile Testing. Presented at Key Engineering Materials,, 51-60. doi:10.4028/www.scientific.net/KEM.734.51
  3. & (2017). Small Punch Testing of Powder Bed Direct Laser Deposits. Presented at Key Engineering Materials,, 94-103. doi:10.4028/www.scientific.net/KEM.734.94
  4. & (2017). Effect of Build Orientation and Post Processing of a Direct Laser Deposited Nickel Superalloy as Determined by the Small Punch Creep Test. Presented at Key Engineering Materials,, 128-136. doi:10.4028/www.scientific.net/KEM.734.128

Other Research Outputs

  1. & (2018). Determination of Mechanical Properties of Materials by Small Punch and Other Miniature Testing Techniques: Proceedings of the 5th International Small Sample Test Techniques Conference SSTT2018. Swansea: Swansea University Institute of Structural Materials.