Research project

High temperature failure processes in Ni base superalloys

Project overview

We are focussing on the role of environment and temperature on the fatigue failure mechanisms in Ni based turbine disc and blade alloys, comparing polycrystalline, single crystal and additively manufactured systems. We have a particular focus on understanding the micromechanisms of failure and how this links to key microstructural features and local processes

Staff

Lead researchers

Professor Philippa Reed

PROFESSOR OF STRUCTURAL MATERIALS

Research interests

  • Fatigue processes in additively manufactured high performance alloys
  • High temperature oxidation and creep fatigue processes in nickel based turbine disc and blade alloys
  • Fatigue mitigation and prediction approaches in turbine blades
Connect with Philippa

Dr Andrew Hamilton

Associate Professor
Connect with Andrew

Collaborating research institutes, centres and groups

Research outputs

Marie-Salome, Dani Duval-Chaneac, Nong Gao, R.H.U Khan, Michael Giles, K. Georgilas, Xiao Zhao & Philippa Reed, 2022, International Journal of Fatigue, 160(7)
Type: article
Yuanguo Tan, Daniel John Bull, Rong Jiang, Angelos Evangelou, Somsubhro Chaudhuri, Sari Octaviani, Fabrice Pierron, Nong Gao, H. Toda, Ian Sinclair & Philippa Reed, 2021, Materials Science & Engineering: A, 805(140592)
Type: article
R. Jiang, Y.D. Song & P.A. Reed, 2020, International Journal of Fatigue, 141
Type: article
Evangelos Evangelou, Katherine Soady, Scott Lockyer, Nong Gao & Philippa Reed, 2019, Materials Science and Engineering: A, 742, 648-661
Type: article
R. J. Kashinga, L. G. Zhao, V. V. Silberschmidt, R. Jiang & P. A.S. Reed, 2018, International Journal of Fracture
Type: article