Nuclear Engineering and Technology (Oct 2019)

Crack growth rate evaluation of alloys 690/152 by numerical simulation of extracted CT specimens

  • S.H. Lee,
  • S.W. Kim,
  • C.H. Cho,
  • Y.S. Chang

Journal volume & issue
Vol. 51, no. 7
pp. 1805 – 1815

Abstract

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While nickel-based alloys have been widely used for power plants due to corrosion resistance and good mechanical properties, during the last couple of decades, failures of nuclear components increased gradually. One of main degradation mechanisms was primary water stress corrosion cracking at dissimilar metal welds of piping and reactor head penetrations. In this context, precise estimation of welding effects became an important issue for ensuring reliability of them. The present study deals with a series of finite element analyses and crack growth rate evaluation of Alloys 690/152. Firstly, variation of residual stresses and equivalent plastic strains was simulated taking into account welding of a cylindrical block. Subsequently, extraction and pre-cracking of compact tension (CT) specimens were considered from different locations of the block. Finally, crack growth curves of the alloys and heat affected zone were developed based on analyses results combined with experimental data in references. Characteristics of crack growth behaviors were also discussed in relation to mechanical and fracture parameters. Keywords: Crack growth rate curve, CT specimen, Nickel-based alloy, PWSCC, Shielded metal arc welding