A series of well-known tubular joints tested in UKSORP II have been re-evaluated using the mesh-insensitive structural stress method as a part of the on-going Battelle Structural Stress JIP efforts. In this report, the structural stress based analysis procedure is first presented for applications in tubular joints varying from simple T joints, double T Joints, YT joints with overlap, and K joints with various internal stiffening configurations. The structural stress based SCFs are then compared with those obtained using traditional surface extrapolation based hot spot stress methods. Their abilities in effectively correlating the fatigue data collected from these tubular joints are demonstrated. These tests are also compared with the T curve typically used for fatigue design of tubular joints as well as the structural stress based master S-N curve adopted by ASME Section VIII Div 2. Finally, some of the implications on fracture mechanics based remaining life assessment for tubular joints are discussed in light of the results obtained in this investigation.
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e-mail: pdong@uno.edu
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August 2012
Structures and Safety Reliability
Fatigue of Tubular Joints: Hot Spot Stress Method Revisited
Pingsha Dong,
Pingsha Dong
School of Naval Architecture and Marine Engineering,
e-mail: pdong@uno.edu
The University of New Orleans
, New Orleans, LA 70148
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Jeong K. Hong
Jeong K. Hong
Center for Welded Structures Research, BATTELLE Columbus
, OH 43201
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Pingsha Dong
School of Naval Architecture and Marine Engineering,
The University of New Orleans
, New Orleans, LA 70148e-mail: pdong@uno.edu
Jeong K. Hong
Center for Welded Structures Research, BATTELLE Columbus
, OH 43201J. Offshore Mech. Arct. Eng. Aug 2012, 134(3): 031602 (12 pages)
Published Online: February 2, 2012
Article history
Received:
May 10, 2009
Revised:
August 21, 2011
Online:
February 2, 2012
Published:
February 2, 2012
Citation
Dong, P., and Hong, J. K. (February 2, 2012). "Fatigue of Tubular Joints: Hot Spot Stress Method Revisited." ASME. J. Offshore Mech. Arct. Eng. August 2012; 134(3): 031602. https://doi.org/10.1115/1.4005188
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