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Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model

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Zeitschriftentitel: Thermal Science
Personen und Körperschaften: Li, Bing, Zhang, Lian-Ying, Li, Yan, Yin, Hui-Guang, Liu, Rui-Xue
In: Thermal Science, 23, 2019, 3 Part A, S. 1539-1545
Format: E-Article
Sprache: Englisch
veröffentlicht:
National Library of Serbia
Schlagwörter:
Renewable Energy, Sustainability and the Environment
author_facet Li, Bing
Zhang, Lian-Ying
Li, Yan
Yin, Hui-Guang
Liu, Rui-Xue
Li, Bing
Zhang, Lian-Ying
Li, Yan
Yin, Hui-Guang
Liu, Rui-Xue
author Li, Bing
Zhang, Lian-Ying
Li, Yan
Yin, Hui-Guang
Liu, Rui-Xue
spellingShingle Li, Bing
Zhang, Lian-Ying
Li, Yan
Yin, Hui-Guang
Liu, Rui-Xue
Thermal Science
Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
Renewable Energy, Sustainability and the Environment
author_sort li, bing
spelling Li, Bing Zhang, Lian-Ying Li, Yan Yin, Hui-Guang Liu, Rui-Xue 0354-9836 2334-7163 National Library of Serbia Renewable Energy, Sustainability and the Environment http://dx.doi.org/10.2298/tsci180820221l <jats:p>Stepwise loading-unloading creep testing of concrete with fly ash content of 35%, and 50% was conducted. The time course curve of stepwise creep in fly ash concrete was obtained. Analyses have revealed that it had decelerated creep, constant velocity, and accelerated creep properties. Based on rheological theory, a non-linear viscoelastic-plastic rheological model (MSSB-NVPB) was constructed, and its constitutive relations and creep equations were obtained. Combined with experimental data, the model parameters were determined. The results showed that this model can characterize the creep properties of the fly ash concrete fairly well.</jats:p> Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model Thermal Science
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title Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
title_unstemmed Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
title_full Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
title_fullStr Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
title_full_unstemmed Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
title_short Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
title_sort stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
topic Renewable Energy, Sustainability and the Environment
url http://dx.doi.org/10.2298/tsci180820221l
publishDate 2019
physical 1539-1545
description <jats:p>Stepwise loading-unloading creep testing of concrete with fly ash content of 35%, and 50% was conducted. The time course curve of stepwise creep in fly ash concrete was obtained. Analyses have revealed that it had decelerated creep, constant velocity, and accelerated creep properties. Based on rheological theory, a non-linear viscoelastic-plastic rheological model (MSSB-NVPB) was constructed, and its constitutive relations and creep equations were obtained. Combined with experimental data, the model parameters were determined. The results showed that this model can characterize the creep properties of the fly ash concrete fairly well.</jats:p>
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author Li, Bing, Zhang, Lian-Ying, Li, Yan, Yin, Hui-Guang, Liu, Rui-Xue
author_facet Li, Bing, Zhang, Lian-Ying, Li, Yan, Yin, Hui-Guang, Liu, Rui-Xue, Li, Bing, Zhang, Lian-Ying, Li, Yan, Yin, Hui-Guang, Liu, Rui-Xue
author_sort li, bing
container_issue 3 Part A
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container_title Thermal Science
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description <jats:p>Stepwise loading-unloading creep testing of concrete with fly ash content of 35%, and 50% was conducted. The time course curve of stepwise creep in fly ash concrete was obtained. Analyses have revealed that it had decelerated creep, constant velocity, and accelerated creep properties. Based on rheological theory, a non-linear viscoelastic-plastic rheological model (MSSB-NVPB) was constructed, and its constitutive relations and creep equations were obtained. Combined with experimental data, the model parameters were determined. The results showed that this model can characterize the creep properties of the fly ash concrete fairly well.</jats:p>
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imprint National Library of Serbia, 2019
imprint_str_mv National Library of Serbia, 2019
institution DE-L229, DE-D275, DE-Bn3, DE-Brt1, DE-Zwi2, DE-D161, DE-Gla1, DE-Zi4, DE-15, DE-Pl11, DE-Rs1, DE-105, DE-14, DE-Ch1
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spelling Li, Bing Zhang, Lian-Ying Li, Yan Yin, Hui-Guang Liu, Rui-Xue 0354-9836 2334-7163 National Library of Serbia Renewable Energy, Sustainability and the Environment http://dx.doi.org/10.2298/tsci180820221l <jats:p>Stepwise loading-unloading creep testing of concrete with fly ash content of 35%, and 50% was conducted. The time course curve of stepwise creep in fly ash concrete was obtained. Analyses have revealed that it had decelerated creep, constant velocity, and accelerated creep properties. Based on rheological theory, a non-linear viscoelastic-plastic rheological model (MSSB-NVPB) was constructed, and its constitutive relations and creep equations were obtained. Combined with experimental data, the model parameters were determined. The results showed that this model can characterize the creep properties of the fly ash concrete fairly well.</jats:p> Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model Thermal Science
spellingShingle Li, Bing, Zhang, Lian-Ying, Li, Yan, Yin, Hui-Guang, Liu, Rui-Xue, Thermal Science, Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model, Renewable Energy, Sustainability and the Environment
title Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
title_full Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
title_fullStr Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
title_full_unstemmed Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
title_short Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
title_sort stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
title_unstemmed Stepwise loading-unloading creep testing of fly ash concrete and its constitutive model
topic Renewable Energy, Sustainability and the Environment
url http://dx.doi.org/10.2298/tsci180820221l