Comparative studies between the shielding parameters of concretes with different additive aggregates using MCNP-5 simulation code

In the present work, cementation concretes with different aggregates were produced. The mass attenuation coefficient (μm) for the produced concretes is simulated using MCNP 5 code between 0.047 MeV and 1.836 MeV. Besides, the μm is computed theoretically using XCOM database and the comparison showed...

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Published inRadiation physics and chemistry (Oxford, England : 1993) Vol. 165; p. 108426
Main Authors Mahmoud, K.A., Sayyed, M.I., Tashlykov, O.L.
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.12.2019
Elsevier BV
Subjects
Aggregates
Atomic properties
Attenuation coefficients
Barite
Cementation
Chalcocite
Comparative studies
Computation
Computer simulation
Concretes
Electron density
Hematite
Mathematical analysis
MCNP 5
Minerals
Shielding
Shielding parameters
Chalcocite
Concretes
Shielding parameters
MCNP 5
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Summary:In the present work, cementation concretes with different aggregates were produced. The mass attenuation coefficient (μm) for the produced concretes is simulated using MCNP 5 code between 0.047 MeV and 1.836 MeV. Besides, the μm is computed theoretically using XCOM database and the comparison showed an agreement between simulated and computed μm values. The simulated results revealed that the concretes with additive of barite minerals have the highest μm while the lowest μm reported for the concretes with additive hematite minerals. Moreover, we calculated the half value layer (HVL) for all concretes between 0.047 MeV and 1.836 MeV. The results showed that the lowest HVL achieved by concretes with barite minerals while the highest HVL achieved by hematite (this is at low energy). On other hand, at high energy the lowest HVL achieved for concretes with additive chalcocite minerals and the highest HVL achieved for concretes with barite minerals. The effective atomic number and effective electron density are calculated and they found to be maximum at energy 0.047 MeV and then decrease with further increasing in the energy. •The μm increases with increase the ratio of chalcocite, barite and HBC aggregates.•The highest μm was found to the concrete with barite aggregates.•The highest HVL was found for concretes with barite aggregates.•The concretes with barite aggregates have the highest Zeff.
ISSN:0969-806X
1879-0895
DOI:10.1016/j.radphyschem.2019.108426