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Cyclic plasticity and low cycle fatigue damage characterisation of thermally simulated X100Q heat affected zone

: Devaney, R.J.; Oesterlin, H.; O'Donoghue, P.E.; Leen, S.B.

Fulltext ()

Hénaff, G.:
12th International Fatigue Congress, FATIGUE 2018 : Poitiers Futuroscope, France, May 27-June 1st, 2018
Les Ulis: EDP Sciences, 2018 (MATEC Web of Conferences 165)
Art. 03002, 8 pp.
International Fatigue Congress (FATIGUE) <12, 2018, Poitiers>
Conference Paper, Electronic Publication
Fraunhofer IWM ()

This paper presents the cyclic plasticity and low cycle fatigue (LCF) damage characterisation of thermally simulated heat affected zone (HAZ) for API 5L X100Q weldments. Microstructures representative of the HAZ for two cooling rates are generated using a Gleeble thermomechanical simulator for manufacture of strain-controlled cyclic plasticity test specimens. The simulated HAZ specimens are subjected to a strain controlled test programme which examines the cyclic effects of strain-range and the tensile response at room temperature. A modified version of the Chaboche rate independent plasticity model, which accounts for early stage damage is implemented to characterise the cyclic plasticity response, including isotropic and kinematic hardening effects. The constitutive parameters are fitted to experimental data using an optimisation procedure developed within a MATLAB code. The measured response of the simulated HAZ specimens is compared to that of the X100Q parent material (PM), and the simulated HAZ is shown to share the early stage fatigue damage behaviour of the PM, but exhibits significantly a higher yield and cyclic strength.