Assessment of Extremely Cold Subarctic Climate Environment Destruction of the Basalt Fiber Reinforced Epoxy (BFRE) Rebar Using Its Moisture Uptake Kinetics

A quite simple method is proposed for the assessment of extremely cold subarctic climate environment destruction of the basalt fiber reinforced epoxy (BFRE) rebar. The method involves the comparison of experimentally obtained long-term moisture uptake kinetic curves of unexposed and exposed BFRP reb...

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Published in:Polymers
Main Authors: Anatoly K. Kychkin, Anna A. Gavrilieva, Alina A. Vasilieva, Aisen A. Kychkin, Mikhail P. Lebedev, Anastasia V. Sivtseva
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2021
Subjects:
destruction
cold climate
epoxy binder
basalt fiber
BFRP
rebar
moisture uptake
diffusion coefficient
Fick’s diffusion
PCM
Yakutsk
Subarctic
Online Access:https://doi.org/10.3390/polym13244325
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record_format openpolar
spelling ftmdpi:oai:mdpi.com:/2073-4360/13/24/4325/ 2023-08-20T04:10:02+02:00 Assessment of Extremely Cold Subarctic Climate Environment Destruction of the Basalt Fiber Reinforced Epoxy (BFRE) Rebar Using Its Moisture Uptake Kinetics Anatoly K. Kychkin Anna A. Gavrilieva Alina A. Vasilieva Aisen A. Kychkin Mikhail P. Lebedev Anastasia V. Sivtseva 2021-12-10 application/pdf https://doi.org/10.3390/polym13244325 EN eng Multidisciplinary Digital Publishing Institute Polymer Processing and Engineering https://dx.doi.org/10.3390/polym13244325 https://creativecommons.org/licenses/by/4.0/ Polymers; Volume 13; Issue 24; Pages: 4325 destruction cold climate epoxy binder basalt fiber BFRP rebar moisture uptake diffusion coefficient Fick’s diffusion PCM Text 2021 ftmdpi https://doi.org/10.3390/polym13244325 2023-08-01T03:30:56Z A quite simple method is proposed for the assessment of extremely cold subarctic climate environment destruction of the basalt fiber reinforced epoxy (BFRE) rebar. The method involves the comparison of experimentally obtained long-term moisture uptake kinetic curves of unexposed and exposed BFRP rebars. A moisture uptake test was carried out at the temperature of 60 °C and relative humidity of 98 ± 2% for 306 days. The plasticization can be neglected because of low-level moisture saturation (<0.41% wt.); the swelling and structural relaxation of the polymer network can be neglected due to the high fiber content of BFRP rebar; moisture diffusion into the basalt fibers can be neglected since it is a much lesser amount than in the epoxy binder. These assumptions made it possible to build a three-stage diffusion model. It is observed that an increase in the density of defects with an increase in the diameter of the BFRP rebar is the result of the technology of manufacturing a periodic profile. The diffusion coefficient of the BFRP rebar with a 6, 10, or 18 mm diameter increased at an average of 82.7%, 56.7%, and 30%, respectively, after exposure to the climate of Yakutsk during 28 months, whereas it was known that the strength indicators had been increased. Text Subarctic Yakutsk MDPI Open Access Publishing Yakutsk Polymers 13 24 4325
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic destruction
cold climate
epoxy binder
basalt fiber
BFRP
rebar
moisture uptake
diffusion coefficient
Fick’s diffusion
PCM
spellingShingle destruction
cold climate
epoxy binder
basalt fiber
BFRP
rebar
moisture uptake
diffusion coefficient
Fick’s diffusion
PCM
Anatoly K. Kychkin
Anna A. Gavrilieva
Alina A. Vasilieva
Aisen A. Kychkin
Mikhail P. Lebedev
Anastasia V. Sivtseva
Assessment of Extremely Cold Subarctic Climate Environment Destruction of the Basalt Fiber Reinforced Epoxy (BFRE) Rebar Using Its Moisture Uptake Kinetics
topic_facet destruction
cold climate
epoxy binder
basalt fiber
BFRP
rebar
moisture uptake
diffusion coefficient
Fick’s diffusion
PCM
description A quite simple method is proposed for the assessment of extremely cold subarctic climate environment destruction of the basalt fiber reinforced epoxy (BFRE) rebar. The method involves the comparison of experimentally obtained long-term moisture uptake kinetic curves of unexposed and exposed BFRP rebars. A moisture uptake test was carried out at the temperature of 60 °C and relative humidity of 98 ± 2% for 306 days. The plasticization can be neglected because of low-level moisture saturation (<0.41% wt.); the swelling and structural relaxation of the polymer network can be neglected due to the high fiber content of BFRP rebar; moisture diffusion into the basalt fibers can be neglected since it is a much lesser amount than in the epoxy binder. These assumptions made it possible to build a three-stage diffusion model. It is observed that an increase in the density of defects with an increase in the diameter of the BFRP rebar is the result of the technology of manufacturing a periodic profile. The diffusion coefficient of the BFRP rebar with a 6, 10, or 18 mm diameter increased at an average of 82.7%, 56.7%, and 30%, respectively, after exposure to the climate of Yakutsk during 28 months, whereas it was known that the strength indicators had been increased.
format Text
author Anatoly K. Kychkin
Anna A. Gavrilieva
Alina A. Vasilieva
Aisen A. Kychkin
Mikhail P. Lebedev
Anastasia V. Sivtseva
author_facet Anatoly K. Kychkin
Anna A. Gavrilieva
Alina A. Vasilieva
Aisen A. Kychkin
Mikhail P. Lebedev
Anastasia V. Sivtseva
author_sort Anatoly K. Kychkin
title Assessment of Extremely Cold Subarctic Climate Environment Destruction of the Basalt Fiber Reinforced Epoxy (BFRE) Rebar Using Its Moisture Uptake Kinetics
title_short Assessment of Extremely Cold Subarctic Climate Environment Destruction of the Basalt Fiber Reinforced Epoxy (BFRE) Rebar Using Its Moisture Uptake Kinetics
title_full Assessment of Extremely Cold Subarctic Climate Environment Destruction of the Basalt Fiber Reinforced Epoxy (BFRE) Rebar Using Its Moisture Uptake Kinetics
title_fullStr Assessment of Extremely Cold Subarctic Climate Environment Destruction of the Basalt Fiber Reinforced Epoxy (BFRE) Rebar Using Its Moisture Uptake Kinetics
title_full_unstemmed Assessment of Extremely Cold Subarctic Climate Environment Destruction of the Basalt Fiber Reinforced Epoxy (BFRE) Rebar Using Its Moisture Uptake Kinetics
title_sort assessment of extremely cold subarctic climate environment destruction of the basalt fiber reinforced epoxy (bfre) rebar using its moisture uptake kinetics
publisher Multidisciplinary Digital Publishing Institute
publishDate 2021
url https://doi.org/10.3390/polym13244325
geographic Yakutsk
geographic_facet Yakutsk
genre Subarctic
Yakutsk
genre_facet Subarctic
Yakutsk
op_source Polymers; Volume 13; Issue 24; Pages: 4325
op_relation Polymer Processing and Engineering
https://dx.doi.org/10.3390/polym13244325
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/polym13244325
container_title Polymers
container_volume 13
container_issue 24
container_start_page 4325
_version_ 1774723936413548544

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