IAEA Coordinated Research Project on Master Curve Approach to Monitor Fracture Toughness of RPV Steels: Final Results of the Experimental Exercise to Support Constraint Effects

Abstract: The precracked Charpy single-edge notched bend, SE(B), specimen (PCC) is the most likely specimen type to be used for determination of the reference temperature, T0, with reactor pressure vessel (RPV) surveillance specimens. Unfortunately, for many RPV steels, significant differences have been observed between the T0 temperature for the PCC specimen and that obtained from the 25-mm thick compact specimen [1TC(T)], generally considered the standard reference specimen for T0. This difference in T0 has often been… Show more

“…(2) Influence of specimen size has long been one of the essential issues for determining fracture toughness. For the master curve application, IAEA coordinated programs extensively examined influences of specimen type and size (CT vs. pre-cracked Charpy V-notch), pre-crack depth and strain rate [155,156]. These factors affect the master curve reference temperature T 0 and bring a bias to T 0 determination compared to data from large CT specimens.…”

Current understanding of radiation-induced degradation in light water reactor structural materials

“…(2) Influence of specimen size has long been one of the essential issues for determining fracture toughness. For the master curve application, IAEA coordinated programs extensively examined influences of specimen type and size (CT vs. pre-cracked Charpy V-notch), pre-crack depth and strain rate [155,156]. These factors affect the master curve reference temperature T 0 and bring a bias to T 0 determination compared to data from large CT specimens.…”

Current understanding of radiation-induced degradation in light water reactor structural materials