• Title/Summary/Keyword: Displacements per atom (DPA)

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Effects of Neutron Spectrum and Cross-section Library on Displacements per Atom (dpa)

  • Park, Duck-Gun;Shimakawa, S.;Nagao, Y.;Kang, Young-Hwan
    • Proceedings of the Korean Nuclear Society Conference
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    • 1997.05a
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    • pp.125-130
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    • 1997
  • Effect of cross-section libraries on displacements per atom (dpa) was investigated under the spectrum which is calculated in the outer and inner of capsule in the JMTR fuel region. The variation of dpa value of iron was calculated by TENJIN2 code using several cross section libraries (ENDFB-lV, JENDL 3.1 and JENDL 3.2). The dependency of input spectrum on total damage (dpa) is more clearly appeared in case or ENDFB-IV in JENDL 3.2 and JENDL 3.1 libraries. The gas production rate calculated by ENDFB-IV library showed slightly larger value than that by JENDL library, and it responded more sensitively in neutron spectrum.

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A SIMPLE METHOD TO CALCULATE THE DISPLACEMENT DAMAGE CROSS SECTION OF SILICON CARBIDE

  • Chang, Jonghwa;Cho, Jin-Young;Gil, Choong-Sup;Lee, Won-Jae
    • Nuclear Engineering and Technology
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    • v.46 no.4
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    • pp.475-480
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    • 2014
  • We developed a simple method to prepare the displacement damage cross section of SiC using NJOY and SRIM/TRIM. The number of displacements per atom (DPA) dependent on primary knock-on atom (PKA) energy was computed using SRIM/TRIM and it is directly used by NJOY/HEATR to compute the neutron energy dependent DPA cross sections which are required to estimate the accumulated DPA of nuclear material. SiC DPA cross section is published as a table in DeCART 47 energy group structure. Proposed methodology can be easily extended to other materials.

Atomistic simulations of defect accumulation and evolution in heavily irradiated titanium for nuclear-powered spacecraft

  • Hai Huang;Xiaoting Yuan;Longjingrui Ma;Jiwei Lin;Guopeng Zhang;Bin Cai
    • Nuclear Engineering and Technology
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    • v.55 no.6
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    • pp.2298-2304
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    • 2023
  • Titanium alloys are expected to become one of the candidate materials for nuclear-powered spacecraft due to their excellent overall performance. Nevertheless, atomistic mechanisms of the defect accumulation and evolution of the materials due to long-term exposure to irradiation remain scarcely understood by far. Here we investigate the heavy irradiation damage in a-titanium with a dose as high as 4.0 canonical displacements per atom (cDPA) using atomistic simulations of Frenkel pair accumulation. Results show that the content of surviving defects increases sharply before 0.04 cDPA and then decreases slowly to stabilize, exhibiting a strong correlation with the system energy. Under the current simulation conditions, the defect clustering fraction may be not directly dependent on the irradiation dose. Compared to vacancies, interstitials are more likely to form clusters, which may further cause the formation of 1/3<1210> interstitial-type dislocation loops extended along the (1010) plane. This study provides an important insight into the understanding of the irradiation damage behaviors for titanium.

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.