Study of the physical and nuclear properties of liquid PbBiCd alloy coolant in nuclear fast reactor

Study of the physical and nuclear properties of liquid PbBiCd alloy coolant in nuclear fast reactor

A series of the lead-bismuth eutectic LBE alloys were prepared by adding different weight percentages of cadmium metal Cd (0, 10, 20, and 30 wt-%), to be used as a coolant in liquid metal fast reactor, LMFR. The physical properties; melting points, density, hardness, and wettability were measured fo...

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Veröffentlicht in:Journal of nuclear materials 2019-08, Vol.522, p.226-235
Hauptverfasser: Amer, T.Z., Saleh, Sara E., El Shazly, R.M., Gomaa, N.S., Bahgat, A.A.
Format: Artikel
Sprache:eng
Schlagworte:
Alloys
Attenuation coefficients
Bismuth
Cadmium
Energy
Eutectic alloys
Eutectic composition
Fast nuclear reactors
Gamma rays
Lead base alloys
Lead-bismuth eutectic LBE alloys
Liquid metals
Liquid metals coolant
Macroscopic cross-sections
Melting
Melting points
Metals
Neutrons
Nuclear cross sections
Nuclear properties
Nuclear reactors
Physical properties
Reactors
Thermal neutrons
Wettability
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container_end_page 235
container_issue
container_start_page 226
container_title Journal of nuclear materials
container_volume 522
creator Amer, T.Z.
Saleh, Sara E.
El Shazly, R.M.
Gomaa, N.S.
Bahgat, A.A.
description A series of the lead-bismuth eutectic LBE alloys were prepared by adding different weight percentages of cadmium metal Cd (0, 10, 20, and 30 wt-%), to be used as a coolant in liquid metal fast reactor, LMFR. The physical properties; melting points, density, hardness, and wettability were measured for the prepared Alloys. Eight different gamma ray energy lines up to 1.4 MeV were used to determine the mass attenuation coefficients (σ, cm2/g) of gamma rays for the alloy's samples. Two types of neutron energies (total slow neutron and neutron with energy greater than 0.4 eV) were used to determine the macroscopic neutron cross-sections (Σ, cm−1) for the prepared alloys. The results show that, the addition of Cd metal to the LBE alloy lowers the melting points and improve their physical properties. It is also shown that the addition of Cd to LBE produce a wide range of near-eutectic compositions. In addition, the optimum Cd percentage for the values of Σ among all prepared alloys is the 20 wt-% Cd content that is why it is proposed the PbBiCd as a possible coolant in nuclear fast reactor. •Produced four types of PbBiCd alloys to be used as a coolant in liquid metal fast reactor.•Density, melting point, hardness, and wettability were measured for the prepared Alloys.•Two types of neutron and 8 energies of γ-rays were used to measure the attenuation properties of alloys.•The addition of Cd metal to the LBE alloy improved their physical properties.•The 20 wt% Cd content is the optimum Cd percentage for the values of Σ.
doi_str_mv 10.1016/j.jnucmat.2019.05.006
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subjects Alloys
Attenuation coefficients
Bismuth
Cadmium
Energy
Eutectic alloys
Eutectic composition
Fast nuclear reactors
Gamma rays
Lead base alloys
Lead-bismuth eutectic LBE alloys
Liquid metals
Liquid metals coolant
Macroscopic cross-sections
Melting
Melting points
Metals
Neutrons
Nuclear cross sections
Nuclear properties
Nuclear reactors
Physical properties
Reactors
Thermal neutrons
Wettability
title Study of the physical and nuclear properties of liquid PbBiCd alloy coolant in nuclear fast reactor
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