posted on 2019-05-29, 15:34authored byB Chen, JN Hu, YQ Wang, S Kabra, ACF Cocks, DJ Smith, PEJ Flewitt
Internal strains that develop between grains during creep of an austenitic stainless steel were measured using in situ neutron diffraction. The secondary creep pre-strained test specimens were considered. Measurements were undertaken before, during and post creep deformation at 550 °C. There was no measurable change of internal strains between grains during in situ creep for 4 h at 550 °C. In addition, the effect of increasing/reducing temperatures in a range from 470 to 550 °C on the internal strains was measured and interpreted with respect to contributions from thermal expansion/contraction. No further internal misfit strains between grains were created when specimen crept during the dwell time at 530, 510, 490 and 470 °C. Results are discussed with respect to (i) the general structure of self-consistent models and (ii) the optimised use of neutron sources for creep studies.
Funding
Bo Chen and Jia Nan Hu are grateful to EDF Energy Nucleation Generation Ltd. for financial support. David Smith is supported by the Royal Academy of Engineering, EDF Energy and Rolls Royce plc. Peter Flewitt acknowledges Wolfson College, University of Oxford, for facilitating the collaboration.
History
Citation
Journal of Materials Science, 2015, 50 (17), pp. 5809-5816
Author affiliation
/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/Department of Engineering