Neutron shielding characteristics of polymer composites with boron carbide

Tuncay Tuna; Aysegul Akdogan Eker; Erol Kam

doi:10.1007/s40042-021-00089-z

Neutron shielding characteristics of polymer composites with boron carbide

Tuncay Tuna, Aysegul Akdogan Eker, Erol Kam^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

25 Citations (Scopus)

Abstract

In this study, the neutron shielding capabilities of boron carbide (B₄C)-reinforced polyester-matrix composite materials were investigated. For the study, 20- 40- and 60-mm-thick specimens were first prepared by reinforcing with 10–50% B₄C, and later their neutron shielding characteristics were studied by using various characterization techniques. The shielding capability of the composite materials was observed to increase with specimen thickness. In addition, increased amounts of B₄C reinforcement improved the attenuation ratio of the material thereby increasing the shielding effectiveness. This trend, however, changed when the B₄C ratio reached 40% and 50% at which a gradual decrease in neutron attenuation was observed. The experimental setup was also simulated using the Monte Carlo code MCNP-5, and similar computations were carried out. The experimental data almost completely agreed with computational results.

Original language	English
Pages (from-to)	566-573
Number of pages	8
Journal	Journal of the Korean Physical Society
Volume	78
Issue number	7
DOIs	https://doi.org/10.1007/s40042-021-00089-z
Publication status	Published - Apr 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2021, The Korean Physical Society.

Keywords

BC
Monte Carlo
Neutron radiation
Polymer composite
Shielding

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10.1007/s40042-021-00089-z

Cite this

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title = "Neutron shielding characteristics of polymer composites with boron carbide",

abstract = "In this study, the neutron shielding capabilities of boron carbide (B4C)-reinforced polyester-matrix composite materials were investigated. For the study, 20- 40- and 60-mm-thick specimens were first prepared by reinforcing with 10–50% B4C, and later their neutron shielding characteristics were studied by using various characterization techniques. The shielding capability of the composite materials was observed to increase with specimen thickness. In addition, increased amounts of B4C reinforcement improved the attenuation ratio of the material thereby increasing the shielding effectiveness. This trend, however, changed when the B4C ratio reached 40% and 50% at which a gradual decrease in neutron attenuation was observed. The experimental setup was also simulated using the Monte Carlo code MCNP-5, and similar computations were carried out. The experimental data almost completely agreed with computational results.",

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AU - Tuna, Tuncay

AU - Eker, Aysegul Akdogan

AU - Kam, Erol

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N2 - In this study, the neutron shielding capabilities of boron carbide (B4C)-reinforced polyester-matrix composite materials were investigated. For the study, 20- 40- and 60-mm-thick specimens were first prepared by reinforcing with 10–50% B4C, and later their neutron shielding characteristics were studied by using various characterization techniques. The shielding capability of the composite materials was observed to increase with specimen thickness. In addition, increased amounts of B4C reinforcement improved the attenuation ratio of the material thereby increasing the shielding effectiveness. This trend, however, changed when the B4C ratio reached 40% and 50% at which a gradual decrease in neutron attenuation was observed. The experimental setup was also simulated using the Monte Carlo code MCNP-5, and similar computations were carried out. The experimental data almost completely agreed with computational results.

AB - In this study, the neutron shielding capabilities of boron carbide (B4C)-reinforced polyester-matrix composite materials were investigated. For the study, 20- 40- and 60-mm-thick specimens were first prepared by reinforcing with 10–50% B4C, and later their neutron shielding characteristics were studied by using various characterization techniques. The shielding capability of the composite materials was observed to increase with specimen thickness. In addition, increased amounts of B4C reinforcement improved the attenuation ratio of the material thereby increasing the shielding effectiveness. This trend, however, changed when the B4C ratio reached 40% and 50% at which a gradual decrease in neutron attenuation was observed. The experimental setup was also simulated using the Monte Carlo code MCNP-5, and similar computations were carried out. The experimental data almost completely agreed with computational results.

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KW - Neutron radiation

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KW - Shielding

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Neutron shielding characteristics of polymer composites with boron carbide

Abstract

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Keywords

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