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contributor authorMarlette, Stephen
contributor authorFreyer, Paula
contributor authorSmith, Michael
contributor authorGoodfellow, Andrew
contributor authorPitoiset, Xavier
contributor authorVoigt, Bradley
contributor authorRishel, Rick
contributor authorKingston, Ed
date accessioned2017-05-09T01:12:08Z
date available2017-05-09T01:12:08Z
date issued2014
identifier issn0094-9930
identifier otherpvt_136_05_051401.pdf
identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/156192
description abstractFull structural weld overlays (FSWOLs) have been used extensively as a repair/mitigation technique for primary water stress corrosion cracking in pressurizer nozzle dissimilar metal (DM) welds. To support an approved FSWOL design and safety submission for British Energy pressurized water reactor (PWR) nozzles, an indepth evaluation was performed to assess the effects of a FSWOL on the through wall residual stress distribution in safety/relief pressurizer nozzles. Two safety/relief pressurizer nozzle mockups were fabricated based on British Energy’s PWR nozzle design. One mockup included the nozzle to safeend DM weld and the safeend to stainless steel weld, while the second mockup included the DM weld, the stainless steel weld, and a Westinghouse designed structural weld overlay. The mockups were fabricated utilizing materials and techniques that represented the plant specific nozzles as closely as possible and detailed welding parameters were recorded during fabrication. All welds were subsequently nondestructively evaluated (NDE). A thorough review of the detailed fabrication records and the NDE results was performed and several circumferential positions were selected on each mockup for subsequent residual stress measurement. The through wall residual stress profiles were experimentally measured through the DM weld centerline at the selected circumferential positions using both the deephole drilling (DHD) and incremental deephole drilling (iDHD) measurement techniques. In addition to experimental residual stress measurements, the throughwall residual stress profiles were simulated using a 2D axisymmetric ansys™ finite element (FE) model. The model utilized the application of temperature constraints on the weld elements to simulate the thermal welding cycle which greatly simplified the simulation as compared with detailed heat source modeling methods. Kinematic strain hardening was used for material modeling of the weld and base metals. A range of residual weld stress profiles was calculated by varying the time at which the temperature constraints were applied to the model. The simulation results were compared with the measurement results. It was found that the effects of the FSWOL were principally threefold. Specifically, the FSWOL causes a much deeper compressive stress field, i.e., the overlay shifts tension out toward the outside diameter (OD) surface. Furthermore, the FSWOL reduces tension in the underlying dissimilar metal weld, and finally, the FSWOL causes higher peak compressive and tensile residual stresses, both of which move deeper into the nozzle wall after the overlay is applied. Relatively good agreement was observed between the FE results and the measurements results.
publisherThe American Society of Mechanical Engineers (ASME)
titleSimulation and Measurement of Through–Wall Residual Stresses in a Structural Weld Overlaid Pressurizer Nozzle
typeJournal Paper
journal volume136
journal issue5
journal titleJournal of Pressure Vessel Technology
identifier doi10.1115/1.4024657
journal fristpage51401
journal lastpage51401
identifier eissn1528-8978
treeJournal of Pressure Vessel Technology:;2014:;volume( 136 ):;issue: 005
contenttypeFulltext


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