Evaluating the effect of cyclic plasticity on creep using a novel crystal plasticity based micro-mechanical model

DOI

In power generation plants, many critical components are subjected to complex tension-compression cyclic loading followed by long-term creep dwells. While uniaxial creep behaviour of components is well understood, there is limited understanding about the effects of cyclic deformation on the creep, particularly with respect to the grain scale anisotropy. We propose to use in-situ neutron diffraction to measure the evolution of grain-scale misfit stresses during cyclic loading and those effects on the subsequent creep stress relaxation introduced at different locations of the cycle. The experimental data will enable us to validate a novel crystal plasticity based micromechanical model capable of predicting the creep behaviour of engineering systems in realistic conditions.

Identifier
DOI https://doi.org/10.5286/ISIS.E.RB1910409-1
Metadata Access https://icatisis.esc.rl.ac.uk/oaipmh/request?verb=GetRecord&metadataPrefix=oai_datacite&identifier=oai:icatisis.esc.rl.ac.uk:inv/103213705
Provenance
Creator Dr Saurabh Kabra; Dr Mahmoud Mostafavi; Professor david Knowles; Dr Chris Simpson; Dr Abdullah al Mamun; Dr Dylan Agius; Dr David Vijayanand Victor; Miss Megan Taylor
Publisher ISIS Neutron and Muon Source
Publication Year 2022
Rights CC-BY Attribution 4.0 International; https://creativecommons.org/licenses/by/4.0/
OpenAccess true
Contact isisdata(at)stfc.ac.uk
Representation
Resource Type Dataset
Discipline Construction Engineering and Architecture; Engineering; Engineering Sciences
Temporal Coverage Begin 2019-06-08T08:00:00Z
Temporal Coverage End 2019-06-12T09:18:15Z