Nuclear Engineering and Technology (Jan 2022)

Round robin analysis to investigate sensitivity of analysis results to finite element elastic-plastic analysis variables for nuclear safety class 1 components under severe seismic load

  • Jun-Young Kim,
  • Jong Min Lee,
  • Jun Geun Park,
  • Jong-Sung Kim,
  • Min Ki Cho,
  • Sang Won Ahn,
  • Gyeong-Hoi Koo,
  • Bong Hee Lee,
  • Nam-Su Huh,
  • Yun-Jae Kim,
  • Jong-In Kim,
  • Il-Kwun Nam

Journal volume & issue
Vol. 54, no. 1
pp. 343 – 356

Abstract

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As a part of round robin analysis to develop a finite element elastic-plastic seismic analysis procedure for nuclear safety class 1 components, a series of parametric analyses was carried out on the simulated pressurizer surge line system model to investigate sensitivity of the analysis results to finite element analysis variables. The analysis on the surge line system model considered dynamic effect due to the seismic load corresponding to PGA 0.6 g and elastic-plastic material behavior based on the Chaboche combined hardening model. From the parametric analysis results, it was found that strains such as accumulated equivalent plastic strain and equivalent plastic strain are more sensitive to the analysis variables than von Mises effect stress. The parametric analysis results also identified that finite element density and ovalization option in the elbow elements have more significant effect on the analysis results than the other variables.

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