New composite material based on heavy concrete reinforced by basalt-boron fiber for radioactive waste management

New composite material based on heavy concrete reinforced by basalt-boron fiber for radioactive waste management

A new composite material with neutron radiation shielding properties is presented. This fiber reinforced concrete material incorporates basalt-boron fiber, with different concentrations of boron oxide in fiber, and is applicable to nuclear energy and nuclear waste management. The methodology for pro...

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Main Authors: Romanenko Iryna, Holiuk Maryna, Kutsyn Pavlo, Kutsyna Iryna, Odynokin Hennadii, Nosovskyi Anatolii, Pastsuk Vitalii, Kiisk Madis, Biland Alex, Chuvashov Yurii, Gulik Volodymyr
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:EPJ Nuclear Sciences & Technologies
Online Access:https://www.epj-n.org/articles/epjn/full_html/2019/01/epjn190073/epjn190073.html
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spelling doaj-45d65a5d80594724900f98242664b55e2021-02-02T06:51:02ZengEDP SciencesEPJ Nuclear Sciences & Technologies2491-92922019-01-0152210.1051/epjn/2019050epjn190073New composite material based on heavy concrete reinforced by basalt-boron fiber for radioactive waste managementRomanenko IrynaHoliuk MarynaKutsyn PavloKutsyna IrynaOdynokin HennadiiNosovskyi AnatoliiPastsuk VitaliiKiisk MadisBiland AlexChuvashov YuriiGulik VolodymyrA new composite material with neutron radiation shielding properties is presented. This fiber reinforced concrete material incorporates basalt-boron fiber, with different concentrations of boron oxide in fiber, and is applicable to nuclear energy and nuclear waste management. The methodology for production of boron oxide (B2O3) infused basalt fiber has been developed. First experimental samples of basalt boron fiber containing 6% of B2O3 and 12% B2O3 have been produced in laboratory conditions. The concrete samples reinforced by two types of basalt-boron fiber with different dosages have been prepared for neutron experiment. The neutron experimental investigations on radiation shielding properties of concrete reinforced by basalt-boron fiber have been performed by means of Pu-Be neutron source. The prepared samples have been tested in the course of several series of tests. It is shown that basalt-boron fibers in concrete improve neutron radiation shielding properties for neutrons with different energies, but it appears to be most effective when it comes to thermal neutrons.https://www.epj-n.org/articles/epjn/full_html/2019/01/epjn190073/epjn190073.html
collection DOAJ
language English
format Article
sources DOAJ
author Romanenko Iryna
Holiuk Maryna
Kutsyn Pavlo
Kutsyna Iryna
Odynokin Hennadii
Nosovskyi Anatolii
Pastsuk Vitalii
Kiisk Madis
Biland Alex
Chuvashov Yurii
Gulik Volodymyr
spellingShingle Romanenko Iryna
Holiuk Maryna
Kutsyn Pavlo
Kutsyna Iryna
Odynokin Hennadii
Nosovskyi Anatolii
Pastsuk Vitalii
Kiisk Madis
Biland Alex
Chuvashov Yurii
Gulik Volodymyr
New composite material based on heavy concrete reinforced by basalt-boron fiber for radioactive waste management
EPJ Nuclear Sciences & Technologies
author_facet Romanenko Iryna
Holiuk Maryna
Kutsyn Pavlo
Kutsyna Iryna
Odynokin Hennadii
Nosovskyi Anatolii
Pastsuk Vitalii
Kiisk Madis
Biland Alex
Chuvashov Yurii
Gulik Volodymyr
author_sort Romanenko Iryna
title New composite material based on heavy concrete reinforced by basalt-boron fiber for radioactive waste management
title_short New composite material based on heavy concrete reinforced by basalt-boron fiber for radioactive waste management
title_full New composite material based on heavy concrete reinforced by basalt-boron fiber for radioactive waste management
title_fullStr New composite material based on heavy concrete reinforced by basalt-boron fiber for radioactive waste management
title_full_unstemmed New composite material based on heavy concrete reinforced by basalt-boron fiber for radioactive waste management
title_sort new composite material based on heavy concrete reinforced by basalt-boron fiber for radioactive waste management
publisher EDP Sciences
series EPJ Nuclear Sciences & Technologies
issn 2491-9292
publishDate 2019-01-01
description A new composite material with neutron radiation shielding properties is presented. This fiber reinforced concrete material incorporates basalt-boron fiber, with different concentrations of boron oxide in fiber, and is applicable to nuclear energy and nuclear waste management. The methodology for production of boron oxide (B2O3) infused basalt fiber has been developed. First experimental samples of basalt boron fiber containing 6% of B2O3 and 12% B2O3 have been produced in laboratory conditions. The concrete samples reinforced by two types of basalt-boron fiber with different dosages have been prepared for neutron experiment. The neutron experimental investigations on radiation shielding properties of concrete reinforced by basalt-boron fiber have been performed by means of Pu-Be neutron source. The prepared samples have been tested in the course of several series of tests. It is shown that basalt-boron fibers in concrete improve neutron radiation shielding properties for neutrons with different energies, but it appears to be most effective when it comes to thermal neutrons.
url https://www.epj-n.org/articles/epjn/full_html/2019/01/epjn190073/epjn190073.html
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AT gulikvolodymyr newcompositematerialbasedonheavyconcretereinforcedbybasaltboronfiberforradioactivewastemanagement
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