Through-thickness distributions of residual stresses in an 80 mm thick weld using neutron diffraction and contour method
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Through-thickness distributions of residual stresses were determined in an 80-mm thick ferritic steel weld using neutron diffraction and contour method. A two-wavelength (1.55 and 2.39 Å) combined method, which is based on minimized cross-section and attenuation, enables us to measure residual stresses in such a thick specimen using neutron diffraction. Moreover, the results were complemented by contour method destructively. Significant tensile longitudinal stresses (up to 660 MPa approaching the yield strength) occur along the weld centerline within 10 mm from the top surface, while compressive transverse stresses (about −100 MPa) were found near the weld mid-thickness. Grain size, hardness, and charpy impact energy were further examined to suggest a critical location of fracture associated with residual stresses.
KeywordsResidual Stress Weld Metal Neutron Diffraction Tensile Residual Stress Fusion Line
This research activity was supported by the Nuclear Research and Development Program of the Korea Science and Engineering Foundation funded by the Korean government. It is also supported by POSCO Project No. 20126193. The authors would like to thank C. Truman, D. Smith, J. U. Park, M. H. Kang, and J. W. Lee for their help.
- 1.Masubuchi K (1980) Analysis of welded structures. Pergamon, New YorkGoogle Scholar
- 12.Hutchings MT, Withers PJ, Holden TM, Lorentzen T (2005) Introduction to the characterization of residual stress by neutron diffraction. Taylor and Francis, LondonGoogle Scholar
- 21.Ripling EJ, Crosley PB (1982) Crack arrest fatigue toughness of a structure steel (A36). Weld Res March:65s–74sGoogle Scholar
- 23.Roberson TS (1953) Propagation of brittle fracture in steel. J Iron Steel Ins 175:361–374Google Scholar
- 25.Sumi Y (1990) Computational crack path prediction for brittle fracture in welding residual stress fields. Inter J Fract 44:189–207Google Scholar