The objective of this investigation was to provide a detailed evaluation of the heat-affected zone (HAZ) toughness of a high-strength TMCP steel designed for low-temperature applications. The results from both Charpy-vee notch (CVN) and cracktip-opening displacement (CTOD) tests conducted on two straight-walled narrow groove welds, produced at energy inputs of 1.5 and 3.0 kJ/mm, show that significantly lower toughness was exhibited by the grain-coarsened HAZ (GCHAZ) compared with the intercritical HAZ (ICHAZ) region. This is explained based on the overall GCHAZ microstructure, and the initiation mechanism which caused failure. For the particular TMCP steel investigated in this study very good ICHAZ toughness properties were recorded using both HAZ Charpy and CTOD tests. In general, this was attributable to the low hardness, relatively fine ferrite microstructure, and the formation of secondary microphases that were not overly detrimental to the toughness. The lower-bound GCHAZ CTOD results obtained for both welds (KA W-L and KA W-H) did not meet the targeted requirement of δ = 0.07 mm at −50°C. It was found in both welds that low CTOD toughness was associated with the initiation of fracture from nonmetallic inclusions, which were complex oxides containing Ce, La, and S. The sites were located in the subcritical GCHAZ (SCGCHAZ) region in the case of the 1.5 kJ/mm weld and in the GCHAZ for the 3.0 kJ/mm weld. Some variation in CVN toughness was observed at different through-thickness locations. Toughness was lowest for the GCHAZ of the weld deposited at 3.0 kJ/mm and was related to the proportion of GCHAZ being sampled, which was ~55 percent for the bottom compared to 25–30 percent for that of the top location. Recommendations are proposed on the preferred practices and criteria that should be used in establishing guidelines and specifications for evaluating the HAZ toughness of candidate steels for construction of Arctic class ships.
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May 1997
Research Papers
Heat-Affected Zone Toughness of a TMCP Steel Designed for Low-Temperature Applications
J. A. Gianetto,
J. A. Gianetto
Materials Technology Laboratory, CANMET Minerals and Metals, Ottawa, Ontario K1A 0G1, Canada
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J. E. M. Braid,
J. E. M. Braid
Materials Technology Laboratory, CANMET Minerals and Metals, Ottawa, Ontario K1A 0G1, Canada
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J. T. Bowker,
J. T. Bowker
Materials Technology Laboratory, CANMET Minerals and Metals, Ottawa, Ontario K1A 0G1, Canada
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W. R. Tyson
W. R. Tyson
Materials Technology Laboratory, CANMET Minerals and Metals, Ottawa, Ontario K1A 0G1, Canada
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J. A. Gianetto
Materials Technology Laboratory, CANMET Minerals and Metals, Ottawa, Ontario K1A 0G1, Canada
J. E. M. Braid
Materials Technology Laboratory, CANMET Minerals and Metals, Ottawa, Ontario K1A 0G1, Canada
J. T. Bowker
Materials Technology Laboratory, CANMET Minerals and Metals, Ottawa, Ontario K1A 0G1, Canada
W. R. Tyson
Materials Technology Laboratory, CANMET Minerals and Metals, Ottawa, Ontario K1A 0G1, Canada
J. Offshore Mech. Arct. Eng. May 1997, 119(2): 134-144 (11 pages)
Published Online: May 1, 1997
Article history
Received:
January 1, 1995
Revised:
January 28, 1996
Online:
December 17, 2007
Citation
Gianetto, J. A., Braid, J. E. M., Bowker, J. T., and Tyson, W. R. (May 1, 1997). "Heat-Affected Zone Toughness of a TMCP Steel Designed for Low-Temperature Applications." ASME. J. Offshore Mech. Arct. Eng. May 1997; 119(2): 134–144. https://doi.org/10.1115/1.2829055
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