• Title/Summary/Keyword: Displacement Per Atom (DPA)

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Review of Factors Affecting IASCC Initiation of Stainless Steel in PWRs (원자로 내부구조물 균열개시 민감도에 미치는 영향인자 고찰)

  • Hwang, Seong Sik;Choi, Min Jae;Kim, Sung Woo;Kim, Dong Jin
    • Corrosion Science and Technology
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    • v.20 no.4
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    • pp.210-229
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    • 2021
  • To safely operate domestic nuclear power plants approaching the end of their design life, the material degradation management strategy of the components is important. Among studies conducted to improve the soundness of nuclear reactor components, research methods for understanding the degradation of reactor internals and preparing management strategies were surveyed. Since the IGSCC (Intergranular Stress Corrosion Cracking) initiation and propagation process is associated with metal dissolution at the crack tip, crack initiation sensitivity was decreased in the hydrogenated water with decreased crack sensitivity but occurrence of small surface cracks increased. A stress of 50 to 55% of the yield strength of the irradiated materials was required to cause IASCC (Irradiation Assisted Stress Corrosion Cracking) failure at the end of the reactor operating life. In the threshold-stress analysis, IASCC cracks were not expected to occur until the end of life at a stress of less than 62% of the investigated yield strength, and the IASCC critical dose was determined to be 4 dpa (Displacement Per Atom). The stainless steel surface oxide was composed of an internal Cr-rich spinel oxide and an external Fe and Ni-rich oxide, regardless of the dose and applied strain level.

Structural and radiological characterization of irradiated RBMK-1500 reactor graphite

  • Lagzdina, Elena;Lingis, Danielius;Plukis, Arturas;Plukiene, Rita;Germanas, Darius;Garbaras, Andrius;Garankin, Jevgenij;Gudelis, Arunas;Ignatjev, Ilja;Niaura, Gediminas;Krutovcov, Sergej;Remeikis, Vidmantas
    • Nuclear Engineering and Technology
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    • v.54 no.1
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    • pp.234-243
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    • 2022
  • This study aims to characterize the irradiated RBMK-1500 nuclear graphite in terms of both structural and radiological properties. The experimental results of morphological and structural analysis of the irradiated graphite samples by using SEM, Raman spectroscopy as well as the theoretical evaluation of primary displacement damage are presented. Moreover, the experimental and theoretical evaluation of the neutron flux is provided and the presence of several γ emitters in the analyzed graphite samples is assessed. Furthermore, the improved version of rapid analysis method for 14C activity determination is applied and the experimentally obtained results are compared with calculated ones. Results indicate that structural changes are uniform enough in all the analyzed samples. However, the distribution of radionuclides is non-homogeneous in the irradiated RBMK-1500 reactor graphite matrix. The comprehensive understanding of both structural and radiological characteristics of nuclear graphite is very important when dealing with decision about irradiated graphite waste management strategy or treatment options prior to its final disposal.