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Abstract

Neutron diffraction was used to map the local stress variation surrounding a 13 mm diameter blind-hole defect in a section of pipeline subjected to an applied bending stress. Comparison was made between the experimentally measured results and local stress predictions based on a two-dimensional analytical model as well as on three-dimensional finite element calculations. The two-dimensional analytical model proved to be unsatisfactory, predicting very large local stress variations at the defect edge which were not observed experimentally. Conversely, the three-dimensional model reflected all of the significant trends observed experimentally, although predicted stress levels were lower than the measured values due to limitations with the finite element package.

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The application of neutron diffraction to stress mapping around a blind-hole defect in stressed pipeline steel

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