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Response of treated recycled aggregate concrete against low-velocity impact loading: Experimental and Weibull statistical analysis

Sustainable and ecologically friendly building practices require increased conservation and recycling of renewable resources. Because of the rise in development and demolition worldwide, using recycled construction materials as aggregate in new concrete can be an essential step towards making the ma...

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Main Authors: Murali G., Katman H.Y.B., Wong L.S., Ibrahim M.R., Kathirvel P., Abid S.R.
Other Authors: 57203952839
Format: Article
Published: Elsevier Ltd 2024
Subjects:
Energy
Failure pattern
Impact strength
MgSO<sub>4</sub>
Recycled aggregate
Treatment of aggregate
Weibull distribution
Compressive strength
Concrete aggregates
Concrete mixtures
Concrete slabs
Mortar
Recycling
Aggregate contents
Failure patterns
Immersion periods
Impact loadings
Low velocity impact
Recycled aggregate concrete
Recycled aggregates
Second phase
Magnesium compounds
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spelling my.uniten.dspace-339192024-10-14T11:17:26Z Response of treated recycled aggregate concrete against low-velocity impact loading: Experimental and Weibull statistical analysis Murali G. Katman H.Y.B. Wong L.S. Ibrahim M.R. Kathirvel P. Abid S.R. 57203952839 55812804800 55504782500 57872447200 57871610800 56548386400 Energy Failure pattern Impact strength MgSO<sub>4</sub> Recycled aggregate Treatment of aggregate Weibull distribution Compressive strength Concrete aggregates Concrete mixtures Concrete slabs Impact strength Mortar Recycling Weibull distribution Aggregate contents Energy Failure patterns Immersion periods Impact loadings Low velocity impact Recycled aggregate concrete Recycled aggregates Second phase Treatment of aggregate Magnesium compounds Sustainable and ecologically friendly building practices require increased conservation and recycling of renewable resources. Because of the rise in development and demolition worldwide, using recycled construction materials as aggregate in new concrete can be an essential step towards making the material more environmentally friendly. Removing or fortifying the adherent mortar is the main technique to advance the poor standard of recycled concrete aggregate, which the adherent mortar causes. The study examines the impact performance of recycled aggregate concrete (RAC) comprising different replacement levels (10, 20, 30 and 40 %) of recycled aggregate (RA). Three concentrations (10, 15, and 20 %) of MgSO4 solution were used to pre-treat the RA and subjected to three different immersion times of 5, 10, and 15 days. For this, thirty-seven mixtures were prepared with the combination of RA contents, MgSO4 concentrations and immersion periods. The study was divided into three phases. The physical properties of RA, slump, and compressive strength tests were studied in the first phase. The best thirteen mixtures that exhibited expectational results in the first phase are put forward to the second phase. The effect of RA content, MgSO4 concentration and immersion periods on the impact strength was studied in the second phase. Besides, the differences in the impact test results were studied by Weibull distribution and results were displayed with regard to the probability of survival. The final phase studied the impact response of reinforced concrete slabs under a large mass impact. The findings reveal that the five days of immersion in a 10 % MgSO4 solution has been shown to enhance the impact strength of RAC, whereas a replacement ratio of 20 % is recommended. � 2023 Elsevier Ltd Final 2024-10-14T03:17:26Z 2024-10-14T03:17:26Z 2023 Article 10.1016/j.conbuildmat.2023.133735 2-s2.0-85174003651 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85174003651&doi=10.1016%2fj.conbuildmat.2023.133735&partnerID=40&md5=78008956174f50cb077cb750892fbc39 https://irepository.uniten.edu.my/handle/123456789/33919 408 133735 Elsevier Ltd Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Energy
Failure pattern
Impact strength
MgSO<sub>4</sub>
Recycled aggregate
Treatment of aggregate
Weibull distribution
Compressive strength
Concrete aggregates
Concrete mixtures
Concrete slabs
Impact strength
Mortar
Recycling
Weibull distribution
Aggregate contents
Energy
Failure patterns
Immersion periods
Impact loadings
Low velocity impact
Recycled aggregate concrete
Recycled aggregates
Second phase
Treatment of aggregate
Magnesium compounds
spellingShingle Energy
Failure pattern
Impact strength
MgSO<sub>4</sub>
Recycled aggregate
Treatment of aggregate
Weibull distribution
Compressive strength
Concrete aggregates
Concrete mixtures
Concrete slabs
Impact strength
Mortar
Recycling
Weibull distribution
Aggregate contents
Energy
Failure patterns
Immersion periods
Impact loadings
Low velocity impact
Recycled aggregate concrete
Recycled aggregates
Second phase
Treatment of aggregate
Magnesium compounds
Murali G.
Katman H.Y.B.
Wong L.S.
Ibrahim M.R.
Kathirvel P.
Abid S.R.
Response of treated recycled aggregate concrete against low-velocity impact loading: Experimental and Weibull statistical analysis
description Sustainable and ecologically friendly building practices require increased conservation and recycling of renewable resources. Because of the rise in development and demolition worldwide, using recycled construction materials as aggregate in new concrete can be an essential step towards making the material more environmentally friendly. Removing or fortifying the adherent mortar is the main technique to advance the poor standard of recycled concrete aggregate, which the adherent mortar causes. The study examines the impact performance of recycled aggregate concrete (RAC) comprising different replacement levels (10, 20, 30 and 40 %) of recycled aggregate (RA). Three concentrations (10, 15, and 20 %) of MgSO4 solution were used to pre-treat the RA and subjected to three different immersion times of 5, 10, and 15 days. For this, thirty-seven mixtures were prepared with the combination of RA contents, MgSO4 concentrations and immersion periods. The study was divided into three phases. The physical properties of RA, slump, and compressive strength tests were studied in the first phase. The best thirteen mixtures that exhibited expectational results in the first phase are put forward to the second phase. The effect of RA content, MgSO4 concentration and immersion periods on the impact strength was studied in the second phase. Besides, the differences in the impact test results were studied by Weibull distribution and results were displayed with regard to the probability of survival. The final phase studied the impact response of reinforced concrete slabs under a large mass impact. The findings reveal that the five days of immersion in a 10 % MgSO4 solution has been shown to enhance the impact strength of RAC, whereas a replacement ratio of 20 % is recommended. � 2023 Elsevier Ltd
author2 57203952839
author_facet 57203952839
Murali G.
Katman H.Y.B.
Wong L.S.
Ibrahim M.R.
Kathirvel P.
Abid S.R.
format Article
author Murali G.
Katman H.Y.B.
Wong L.S.
Ibrahim M.R.
Kathirvel P.
Abid S.R.
author_sort Murali G.
title Response of treated recycled aggregate concrete against low-velocity impact loading: Experimental and Weibull statistical analysis
title_short Response of treated recycled aggregate concrete against low-velocity impact loading: Experimental and Weibull statistical analysis
title_full Response of treated recycled aggregate concrete against low-velocity impact loading: Experimental and Weibull statistical analysis
title_fullStr Response of treated recycled aggregate concrete against low-velocity impact loading: Experimental and Weibull statistical analysis
title_full_unstemmed Response of treated recycled aggregate concrete against low-velocity impact loading: Experimental and Weibull statistical analysis
title_sort response of treated recycled aggregate concrete against low-velocity impact loading: experimental and weibull statistical analysis
publisher Elsevier Ltd
publishDate 2024
_version_ 1814061031570276352
score 13.222552

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