Barite concrete-based cement composites for 252Cf spontaneous neutron and 60Co/192Ir shielding based on Monte Carlo computation

Cebastien Joel Guembou Shouop; Sang-In Bak; Eric Jilbert Nguelem Mekontso; Maurice Ndontchueng Moyo; David Strivay

doi:10.1088/2053-1591/ac5e8d

Materials Research Express (Jan 2022)

Barite concrete-based cement composites for 252Cf spontaneous neutron and 60Co/192Ir shielding based on Monte Carlo computation

Cebastien Joel Guembou Shouop,
Sang-In Bak,
Eric Jilbert Nguelem Mekontso,
Maurice Ndontchueng Moyo,
David Strivay

Affiliations

Cebastien Joel Guembou Shouop: ORCiD; Pure Physics Laboratory—Postgraduate Training Unit for Mathematics, Applied Computer Science and Pure Physics, University of Douala , PO Box 24157, Douala, Cameroun; National Radiation Protection Agency of Cameroon, PO Box 33732, Yaounde, Cameroon; Atomic and Nuclear Spectroscopy, Archeometry, University of Liège , Bat. B15 Sart Tilman, 4000 Liege 1, Belgium
Sang-In Bak: Korea Institute of Nuclear Safety (KINS) 62 Gwahak-ro , Yuseong-gu, Daejeon 34142, Republic of Korea
Eric Jilbert Nguelem Mekontso: Pure Physics Laboratory—Postgraduate Training Unit for Mathematics, Applied Computer Science and Pure Physics, University of Douala , PO Box 24157, Douala, Cameroun; National Radiation Protection Agency of Cameroon, PO Box 33732, Yaounde, Cameroon
Maurice Ndontchueng Moyo: Department of Physics, University of Douala , PO Box 24157, Douala, Cameroun; National Radiation Protection Agency of Cameroon, PO Box 33732, Yaounde, Cameroon
David Strivay: Atomic and Nuclear Spectroscopy, Archeometry, University of Liège , Bat. B15 Sart Tilman, 4000 Liege 1, Belgium

DOI: https://doi.org/10.1088/2053-1591/ac5e8d
Journal volume & issue: Vol. 9, no. 4
p. 045502

Abstract

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Barite concrete composite materials have been investigated for ^252 Cf spontaneous neutron and ^60 Co/ ^192 Ir gamma sources’ shielding using Monte Carlo computational method. The Particle and Heavy Ion Transport code System (PHITS) was used to compute the shielding properties of three different materials (barite concrete, barite cement, and barite aggregate) used as structural walls in fixed neutron & gamma industrial radiography for Non-Destructive Testing applications. The obtained results displayed good properties of barite concrete in shielding spontaneous neutrons emitted from the ^252 Cf source, as the effective dose drops about 10 ^8 times in only 140 cm wall thickness, and it was found to be about 10 times more effective than other materials investigated. In addition, the investigated gamma shielding properties of the barite concrete showed a relatively smaller wall thickness compared to the ordinary concrete. The decision-making process based on the ALARA principle of dose limitation showed that the use of barite concrete in such facilities is more effective than the use of barite cement and barite aggregate, for both gamma and neutron radiography shielding design. To achieve an average value of 1 μ Sv/h, the obtained result shows that 80 cm of Barite concrete is needed, while 125 and 130 cm of barite cement and barite aggregate are needed, respectively to shield the Co-60 source. Meanwhile, 50 cm of wall made of barite concrete is sufficient to cut down the effective dose rate to 1 μ Sv/h (for 50 Ci and 55 cm for 150 Ci ^192 Ir), which is an appropriate design for the public area adjacent to the industrial radiographic facility. It was therefore concluded from the obtained data that barite concrete is the most effective shielding material for radioactive sources ( ^60 Co, ^192 Ir, and ^252 Cf) used in radiographic applications.

Published in Materials Research Express

ISSN: 2053-1591 (Online)
Publisher: IOP Publishing
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials; Technology: Chemical technology
Website: https://iopscience.iop.org/journal/2053-1591

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