V. L. Panchenko scite author profile

Tubes from zirconium-base alloys are used widely in the pressure tube reactor core. The lifetime of the zirconium component in the reactor core will be determined by structure changes and alloy properties under long-term neutron irradiation. The studies were carried out using Zr-1Sn-1Nb-0.4Fe (E635) and Zr-2.5Nb (E125) alloy samples cut out of a pressure tube (PT) in the initial condition and after 7 and 15.5 years operated (42 000 and 95 000 effective hours) under irradiation to the neutron fluxes of 3 × 1017 and 2 × 1017 n/m2 s (E > 1 MeV) at 304°C in RBMK-1000 and 314°C in RBMK-1500, respectively. The E125 alloy PTs were in two conditions, as cold worked and annealed (A) and as thermomechanically treated (TMT-1) (B). The E635 alloy PTs were cold worked and annealed (A) (Tablel). The examinations were implemented using analytical transmission electron microscopy (TEM), energy dispersive X-ray (EDX), and X-ray diffraction (XRD) analyses. New data showing the microstructure changes are presented. Both the alloys have a partially recrystallized grain structure with a high density of intragranular dislocations in the initial state. The main part of dislocations belong to ⟨a⟩ type. Density of secondary phase precipitates is high. They are β-Nb (bec) in Zr-2.5Nb. In Zr-1.3Sn-1Nb-0.4Fe, precipitates consist of Zr, Nb, and Fe, and the constituent ratio is close to 1:1:1 Zr(Nb,Fe)2 (hcp). Linear dislocations (Type a) are annealed under irradiation, while the density of ⟨c⟩-component dislocations is not practically changed. Grain structure of the Zr-2.5Nb alloy is retained, and it is practically completely recrystallized in Zr-1.3Sn-1Nb-0.4Fe. The phase structure and microchemical composition are modified by irradiation. Nb concentration changes in β-Nb are observed in Zr-2.5Nb. A substantial decrease of Fe concentration and irradiation defect accumulation are observed in the intermetallic precipitates Zr(Nb,Fe)2 in the E635 alloy. This leads to crystal lattice disordering and new precipitates Nb-enriched are formed. Dislocation loops are formed under irradiation. Loop dimensions vary widely in Zr-2.5Nb. They show a tendency to ordering under high-fluence irradiation. Uniform structure of loops with a high tendency to ordering is formed in the alloy Zr-l.3Sn-lNb-0.4Fe; 70% of them are interstitial loops of the ⟨a⟩ type. Irradiation-induced Fe depletion of intermetallic particles and a Fe content increase in saturated α-Zr matrix may be a cause of the microstructure and performance changes in E635 alloy pressure tubes. The correlation between irradiation-induced dislocation structure and hardening of the E125 alloy is discussed.

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Characteristics of radiation porosity formed upon irradiation in a BN-600 reactor in the fuel-element cans of cold-deformed steel EK-164 (06Kh16N20M2G2BTFR)-ID c.d.

Portnykh¹,

Козлов²,

Panchenko³

et al. 2012

Phys. Metals Metallogr.

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At present, it is the austenitic cold deformed steel EK164 (06Kh16N20M2G2BTFR) ID that is considered as a promising material for the achievement of a maximum damage (no less than 110 dpa) and max imum burnup (≥15%). In this work, we have determined the characteristics of porosity formed upon irradiation in a BN 600 reactor to the maximum damaging dose of 77 dpa in the materials of fuel element cans made of cold deformed steel EK164 ID c.d. A comparison has been made with analogous characteristics obtained ear lier using the standard material, i.e., the cold deformed steel ChS68 (06Kh16N 15M2G2TFR) ID c.d.

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The mechanism of stress influence on swelling of 20% cold-worked 16Cr15Ni2MoTiMnSi steel

Portnykh

Козлов

Panchenko

et al. 2007

Journal of Nuclear Materials

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Application of backscatter electrons for large area imaging of cavities produced by neutron irradiation

Пастухов

Averin

Panchenko

et al. 2016

Journal of Nuclear Materials

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V. L. Panchenko

Irradiation-induced microstructural changes in Zr-1% Sn-1% Nb-0.4% Fe

Evolution of Dislocation and Precipitate Structure in Zr Alloys Under Long-Term Irradiation

Characteristics of radiation porosity formed upon irradiation in a BN-600 reactor in the fuel-element cans of cold-deformed steel EK-164 (06Kh16N20M2G2BTFR)-ID c.d.

The mechanism of stress influence on swelling of 20% cold-worked 16Cr15Ni2MoTiMnSi steel

Application of backscatter electrons for large area imaging of cavities produced by neutron irradiation

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