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Article type: Research Article
Authors: Turski, M. | Sherry, A.H. | Bouchard, P.J. | Withers, P.J.
Affiliations: Manchester Materials Science Centre, University of Manchester, Grosvenor Street, Manchester M1 7HS, UK | Serco Assurance, Birchwood Park, Risley, Warrington Cheshire, UK | British Energy Generation Ltd., Barnett Way, Barnwood Gloucester, UK
Note: [] Corresponding author. E-mail: philip.withers@man.ac.uk
Abstract: A specially designed compact tension (CT) specimen has been used to simulate reheat cracking observed in plant components operating above 500°C. The specimens were deformed in compression beyond yield and unloaded to produce high tensile residual stresses at the notch root. Test specimens were machined from an ex-service AISI Type 316H austenitic stainless steel steam header. After residual stressing, one specimen was crept for 4500 h at 550°C. Residual strains along the ligament of the specimens were measured using synchrotron and neutron diffraction techniques before and after creep. A 3D finite element (FE) model was developed and used to predict the residual stress and strain fields in the two conditions. A good correlation has been found between measurements and FE predictions before and after creep. Application of a creep ductility-exhaustion model to the specimen predicts the onset of simulated reheat crack initiation during the test. The validity of this model will be assessed on destructive examination of the specimen.
Keywords: Reheat cracking, Creep damage, Residual stress, Creep cavitation
DOI: 10.1080/10238160410001734441
Journal: Journal of Neutron Research, vol. 12, no. 1-3, pp. 45-49, 2004
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