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Materials at High Temperatures Volume 38, 2021 - Issue 4
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ECCC-promoted

Use of a stepped preparation to improve the damage tolerance of grade 91 steel welds

Jonathan ParkerGeneration Sector, EPRI, Charlotte, USACorrespondence[email protected]
&
John SiefertGeneration Sector, EPRI, Charlotte, USA
Pages 262-274 | Received 05 Oct 2020, Accepted 30 Apr 2021, Published online: 03 Jun 2021

References

  • Service experience with grade 91 components. Palo Alto, CA: EPRI; 2011. p. 1018151.
  • Service experience with creep strength enhanced ferritic steels in power plants in the asia-pacific region. Palo Alto, CA: EPRI; 2015. p. 3002005.
  • Parker JD, Brett SJ. Creep performance of a grade 91 header. Int J Press Vessels Pip. 2013;111-112:82–88.
  • Parker JD, Siefert JA, The effect of metallurgical factors and stress state on the performance of high energy components manufactured from creep strength enhanced steels, Proceedings of the Fourth ECCC Conference on Creep and Fracture - Creep and Fracture in High Temperature Components Design and Life Assessment, Düsseldorf, Germany, 2017.
  • Parker JD, Siefert JA. The creep and fracture behaviour of tempered martensitic steels. Mater High Temp. 2018;35(6):491–503.
  • The benefits of improved control of composition of creep-strength-enhanced ferritic steel grade 91. Palo Alto, CA: EPRI; 2015. p. 3002003472.
  • The influence of steel making and processing variables on the microstructure and properties of creep-strength-enhanced ferritic (CSEF) steel grade 91. Palo Alto, CA: EPRI; 2014. p. 3002004370.
  • Item 14–1540, “Section I, code case for grade 91 Class II.” Code Case 2864, approved by ASME B&PV Code, Section I, September 21, 2016.
  • Non-destructive methods for detection of high-temperature damage in creep-strength-enhanced ferritic steels (grades 91 and 92) as a basis for life evaluation. Palo Alto, CA: EPRI; 2015. p. 3002005187.
  • Parker JD, Siefert JA. Manufacture and performance of welds in creep strength enhanced ferritic steels. materials. 2019;12:2257.
  • Guidelines and specifications for high-reliability fossil power plants: best practice guideline for manufacturing and construction of grade 91 steel components. Palo Alto, CA: EPRI; 2015. p. 3002006390.
  • Parker JD, Siefert JA. Evaluation of the creep cavitation behavior in Grade 91 steels. Int J Press Vessels Pip. 2016 February;138:31–44.
  • Xu X, West GD, Siefert JA, et al. The influence of thermal cycles on the microstructure of grade 92 steel. Metall Mater Trans A. 2017;48(11):5396–5414.
  • Xu X, West GD, Siefert JA, et al. Microstructural characterization of the heat-affected zones in grade 92 steel welds: double-pass and multipass welds. Metall Mater Trans A. 2018;49(4):1211–1230.
  • DiStefano JR, Sikka VK. Summary of modified 9Cr-1Mo steel development programme,” 1975–1985. ORNL-6303, Oak Ridge National Laboratory;USA 1986 October. https://doi.org/10.29391/2019.98.005
  • Abson DJ, Rothwell JS. Review of Type IV cracking of weldments in 9-12% Cr creep strength enhanced ferritic steels. Int Mater Rev. 2013;58(8):437–473.
  • Francis JA, Mazur W, Bhadeshia H. Review Type IV cracking in ferritic power plant steels. Mater Sci Technol. 2006;22(12):1387–1395.
  • Tabuchi M, Takahashi Y. Evaluation of creep strength reduction factors for welded joints of modified 9Cr1Mo steel. Trans ASME J Pressure Vessel Technol. 2012;134:031401–6.
  • Siefert JA, Parker JD, Thomson RC. Cross-weld creep performance in Grade 91 steel: macro-based assessment. Suppl Weld J Am Weld Soc. 2019 March.

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