Realizing the advantages of Replacing Lead with Tin in Bismuth-Lead Alloys for Improved Thermal and Nuclear Properties as Coolant
Dahy, S., Elshazly, R., Amer, T., Gomaa, N., Bahgat, A. (2024). Realizing the advantages of Replacing Lead with Tin in Bismuth-Lead Alloys for Improved Thermal and Nuclear Properties as Coolant. EKB Journal Management System, 57(3), 11-23. doi: 10.21608/ajnsa.2024.281619.1809
Samah Dahy; R. M. Elshazly; T. Z. Amer; N. S. Gomaa; A. A. Bahgat. "Realizing the advantages of Replacing Lead with Tin in Bismuth-Lead Alloys for Improved Thermal and Nuclear Properties as Coolant". EKB Journal Management System, 57, 3, 2024, 11-23. doi: 10.21608/ajnsa.2024.281619.1809
Dahy, S., Elshazly, R., Amer, T., Gomaa, N., Bahgat, A. (2024). 'Realizing the advantages of Replacing Lead with Tin in Bismuth-Lead Alloys for Improved Thermal and Nuclear Properties as Coolant', EKB Journal Management System, 57(3), pp. 11-23. doi: 10.21608/ajnsa.2024.281619.1809
Dahy, S., Elshazly, R., Amer, T., Gomaa, N., Bahgat, A. Realizing the advantages of Replacing Lead with Tin in Bismuth-Lead Alloys for Improved Thermal and Nuclear Properties as Coolant. EKB Journal Management System, 2024; 57(3): 11-23. doi: 10.21608/ajnsa.2024.281619.1809

Realizing the advantages of Replacing Lead with Tin in Bismuth-Lead Alloys for Improved Thermal and Nuclear Properties as Coolant

Arab Journal of Nuclear Sciences and Applications
Volume 57, Issue 3, July 2024, Pages 11-23    PDF (1.07 M)
Document Type: Original Article
DOI: 10.21608/ajnsa.2024.281619.1809
Authors
Samah Dahy1; R. M. Elshazly2; T. Z. Amer3; N. S. Gomaa4; A. A. Bahgat* 5
1Physics Department, Faculty of Science(Girls branch), Al-Azhar University, Nasr City,, Cairo, Egypt
2Physics Department, Faculty of Science, Al-Azhar University
3Physics Department, Faculty of Science (Girl’s branch), Al-Azhar University, Nasr City, 11884, Cairo, Egypt
4Physics Department, Faculty of Science (Girls branch), Al-Azhar University, Nasr City, Cairo, Egypt
5Faculty of Science,Al-Azhar University,Cairo,Egypt
Abstract
A series of Bi50Pb50-xSnx alloys, where x = 0, 16, 20, 25, and 30 wt. %, were prepared to be used as coolants and for heat transfer in fast fission and/or fusion nuclear reactors. For the prepared alloys, measurements were made of their density and melting points. Similarly, high-temperature measurements of the alloys' wetting contact angles on several substrate types were made to clarify their possible application in the design of nuclear reactors. The mass attenuation coefficients〖 μ〗_m (cm2/g) were established experimentally with energy ranges of 121.8 to 1407.24 keV. The neutron macroscopic cross sections ̩Ʃ (cm-1) and mean free path MFP (cm) of the alloys were determined experimentally using three neutron energy ranges (slow neutrons, total slow neutrons, and neutrons with energies > 0.4 eV). The results indicated that there was a substantial agreement between the theoretical calculations which were done with the aid of “WinXCom” and “Phy-X/PSD” software and the practical outcomes. The increase in Sn concentration at the expense of Pb improves the physical characteristics of (Bi-Pb-Sn) alloys, making them suitable for use as coolants in fast nuclear reactors.
Keywords
Liquid metal coolant; Wettability; melting points; γ-rays and neutrons absorption; Mass attenuation coefficients; build-up factors; and neutrons macroscopic cross-sections
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