Synergistic effect of boron nitride and graphene nanosheets on behavioural attitudes of polyester matrix: Synthesis, experimental and Monte Carlo simulation studies

Synergistic effect of boron nitride and graphene nanosheets on behavioural attitudes of polyester matrix: Synthesis, experimental and Monte Carlo simulation studies

We report the synergistic effects of boron nitride and graphene nanosheets on physical, structural, and nuclear radiation attenuation properties of polyester matrix-incorporated nanocomposites. Some critical material properties are thoroughly evaluated for several types of synthesized samples. Polye...

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Veröffentlicht in:Diamond and related materials 2022-06, Vol.126, p.109095, Article 109095
Hauptverfasser: Başgöz, Öyküm, Güler, Seval Hale, Güler, Ömer, Canbay, Canan A., Zakaly, Hesham M.H., Issa, Shams A.M., ALMisned, Ghada, Tekin, H.O.
Format: Artikel
Sprache:eng
Schlagworte:
Attenuation
Boron
Boron nitride
Energy levels
Fast neutrons
FLUKA
Gamma rays
Graphene
Material properties
Monte Carlo simulation
Nanocomposites
Nanosheets
Nuclear radiation
Polyesters
SEM
Synergistic effect
Synthesis
Tensile tests
Thermal analysis
Thermal decomposition
Thermal properties
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container_end_page
container_issue
container_start_page 109095
container_title Diamond and related materials
container_volume 126
creator Başgöz, Öyküm
Güler, Seval Hale
Güler, Ömer
Canbay, Canan A.
Zakaly, Hesham M.H.
Issa, Shams A.M.
ALMisned, Ghada
Tekin, H.O.
description We report the synergistic effects of boron nitride and graphene nanosheets on physical, structural, and nuclear radiation attenuation properties of polyester matrix-incorporated nanocomposites. Some critical material properties are thoroughly evaluated for several types of synthesized samples. Polyester is employed to strengthen graphene and boron nitride nanolayers, and their characteristics are investigated in detail. Additionally, we report the gamma-ray and fast neutron attenuation characteristics of synthesized nanocomposites to get a better understanding of the reinforcing effect as a function of material type and weight percentage. Thermal analysis findings indicate that adding graphene lowers the decomposition temperature but co-adding graphene and BNNS enhances thermal decomposition in comparison to graphene itself. Tensile tests showed that the inclusion of both GRP and GRP/BNNS strengthens the material. Among the polyester composite samples analyzed, the G3 sample with the most GNP reinforcement had the lowest HVL values throughout the broadest range of energy levels investigated. The recent findings may be beneficial to the scientific community in terms of incorporating these reinforcing types and ratios into polyester materials for a variety of applications, including industrial and research purposes. [Display omitted] •Synergistic effects of boron nitride and graphene nanosheets are investigated.•Polyester is employed to strengthen graphene and boron nitride nanolayers.•Adding graphene lowers the decomposition temperature.•Inclusion of both GRP and GRP/BNNS strengthens the material.•Maximum GNP reinforcement provided lowest HVL values against gamma-rays.
doi_str_mv 10.1016/j.diamond.2022.109095
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source ScienceDirect Journals (5 years ago - present)
subjects Attenuation
Boron
Boron nitride
Energy levels
Fast neutrons
FLUKA
Gamma rays
Graphene
Material properties
Monte Carlo simulation
Nanocomposites
Nanosheets
Nuclear radiation
Polyesters
SEM
Synergistic effect
Synthesis
Tensile tests
Thermal analysis
Thermal decomposition
Thermal properties
title Synergistic effect of boron nitride and graphene nanosheets on behavioural attitudes of polyester matrix: Synthesis, experimental and Monte Carlo simulation studies
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