Simulation of radiation attenuation in polymer matrix composite with epoxy resin, reinforced with carbon fiber and dispersion of bismuth oxide (Bi2O3) nanoparticles
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2022
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BRAZILIAN CONFERENCE ON COMPOSITE MATERIALS, 6th
Resumo
The aim of this study was to simulate gamma radiation attenuation using a polymer matrix composite of
an epoxy (DGEBA) resin that was reinforced with carbon fiber cloth fabric and then dispersed with bismuth (III)
oxide (Bi2O3) nanoparticles. The quantitative methodology was used for this simulation with the software
Topas MC (version 3.7). The mass ratios of the bismuth (III) oxide nanoparticles in the composite were
approximately 0.163, 0.244, 0.325 and 0.407. The photon energy in the simulation was 100 keV, typical X-ray
energy in Medical Imaging (Diagnostic Radiography). The mass ratio of 0.407 and the polymer matrix composite at
a thickness of 2.29 mm provided 89.03% attenuation of the photon energy. However, for the lead plate, a thickness
of 0.34 mm was necessary for similar attenuation. Nonetheless, the fabrication process of a composite plate is
easier than that of a lead plate. In conclusion, a composite of an epoxy polymer matrix, with bismuth (III) oxide
dispersion, reinforced with carbon fiber, is an excellent option as compared to a lead plate. The composite plate can
attenuate photon energy and does not present an acute or chronic danger to the environment or to health. Also, it
is non-carcinogenic, and does not cause reproductive toxicity, both clear advantages over lead. Finally, it should be
noted that other applications of the composite would be production of an X-ray shield and aerospace industries,
among others.
Como referenciar
MUNHOZ, PEDRO M.; NASCIMENTO, FERNANDO C.; SILVA, LEONARDO G.A.; GARY, BRUNO C.; CALVO, WILSON A.P. Simulation of radiation attenuation in polymer matrix composite with epoxy resin, reinforced with carbon fiber and dispersion of bismuth oxide (Bi2O3) nanoparticles. In: SILVA, R.J. da (ed.); PANZERA, T.H. (ed.). In: BRAZILIAN CONFERENCE ON COMPOSITE MATERIALS, 6th, August 14-18, 2022, Tiradentes, MG. Proceedings... São João del-Rei, MG: Universidade Federal de São João del-Rei, 2022. p. 619-624. DOI: 10.29327/566492. Disponível em: http://repositorio.ipen.br/handle/123456789/33548. Acesso em: 10 May 2024.
Esta referência é gerada automaticamente de acordo com as normas do estilo IPEN/SP (ABNT NBR 6023) e recomenda-se uma verificação final e ajustes caso necessário.