Experimental evaluation of localized creep deformation in grade 91 steel weldments

Yiyu Wang, Wei Zhang, Yanli Wang, Yong Chae Lim, Xinghua Yu, Zhili Feng

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27 Scopus citations

Abstract

Spatially resolved measurement of localized creep deformation in heterogeneous creep resistant steel weldments is crucial but challenging for lifetime assessments of critical steam components in power plants. In this work, experimental approaches were established to quantitatively evaluate commonly observed localized creep deformation in multi-pass Grade 91 steel weldments. An in-situ digital image correlation (DIC) system was utilized with a creep testing frame to monitor and measure both full-field strain and localized strain accumulation across the weldments during long-term creep testing at elevated temperatures. The in situ DIC method measured not only the creep deformation behavior of the weld metal, heat affected zone (HAZ), and base metal, but also creep strain evolution for each sub-region within the HAZ itself, including coarse-grained HAZ, fine-grained HAZ (FGHAZ), and intercritical HAZ (ICHAZ). The DIC results revealed that local creep strain in the ICHAZ reached up to 90% strain before final rupture, whereas nominal creep strain measured by the standard extensometer of the tested cross-weld specimen was below 10%, indicative of Type IV cracking of the Grade 91 weld. Microstructural analyses revealed that the faster creep degradation/deformation in the HAZ was caused mainly by accelerated matrix grain recrystallization/growth and a reduced pinning effect from the segregated and coarsened precipitates in the FGHAZ and ICHAZ. The ultimate creep rupture occurred in the ICHAZ owing to its lowest creep resistance induced by the largest recrystallized grain size, the lowest fraction of coincidence site lattice, and the lowest local strain energies/dislocation densities.

Original languageEnglish
Article number140356
JournalMaterials Science and Engineering: A
Volume799
DOIs
StatePublished - Jan 2 2021

Funding

This work is funded by -the US Department of Energy Crosscutting Research program (FWP-FEAA118). The research and development work was performed at Oak Ridge National Laboratory, which is managed by UT-Battelle LLC for the US Department of Energy under contract DE-AC05- 00OR22725. The authors would like to thank Mr. Doug Kyle for his help in creep testing experiments, and Mr. Roger Miller and Dr. Jian Chen for their discussion and manuscript review. This work is funded by -the US Department of Energy Crosscutting Research program ( FWP-FEAA118 ). The research and development work was performed at Oak Ridge National Laboratory, which is managed by UT-Battelle LLC for the US Department of Energy under contract DE-AC05- 00OR22725 . The authors would like to thank Mr. Doug Kyle for his help in creep testing experiments, and Mr. Roger Miller and Dr. Jian Chen for their discussion and manuscript review.

Keywords

  • Digital image correlation
  • Grade 91 steel
  • Heat affected zone
  • Localized creep deformation
  • Microstructure
  • Type IV Cracking

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