Study the fire resistance of desert sand concrete (DSC) with interface phase through uniaxial compression tests and analyses
The shortage of sand resources and high-rise building fires are becoming increasingly prominent. Desert sand (DS) with smaller particles can effectively fill the concrete voids and further improve its working performance; it is used as a fine aggregate to produce concrete. This article studied the p...
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2021
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| Online Access: | http://umpir.ump.edu.my/id/eprint/31519/1/2021%20%28UMPIR%29%20Study%20the%20Fire%20Resistance%20of%20Desert%20Sand%20Concrete%20%28DSC%29%20with%20Interface%20Phase%20through%20Uniaxial%20Compression%20Tests%20and%20Analyses.pdf http://umpir.ump.edu.my/id/eprint/31519/ https://doLorg/10.1155/2021/8863136 |
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my.ump.umpir.315192021-06-11T08:39:23Z http://umpir.ump.edu.my/id/eprint/31519/ Study the fire resistance of desert sand concrete (DSC) with interface phase through uniaxial compression tests and analyses Zhang, Qian Liu, Haifeng Liu, Qiang Che, Jialing Yang, Weiwu Ma, Jurong Doh, Shu Ing Lim, Kar Sing TA Engineering (General). Civil engineering (General) The shortage of sand resources and high-rise building fires are becoming increasingly prominent. Desert sand (DS) with smaller particles can effectively fill the concrete voids and further improve its working performance; it is used as a fine aggregate to produce concrete. This article studied the performance of desert sand concrete (DSC) against fire resistance by using mathematical modeling for simulation. The stress-strain curves of desert sand mortar (DSM) after elevated temperatures were tested, and the constitutive model was established. By comparing the experiment and simulation results, it was verified that the model is suitable to be adopted in this study. Data from experiment and past literature can serve as parameters for the subsequent simulation. The destruction process of DSC under uniaxial compression after elevated temperature was simulated by using ANSYS. The simulation results indicated that, after elevated temperature, compressive strength reduced with increase of interface thickness. The compressive strength of DSC had a substantially linear increase as the interface compressive strength increased. For two-grade coarse aggregate, the optimum volume content was 45%, and particle size of it showed a significant effect on the compressive strength of DSC. The DSM constitutive model and simulation results can provide a sound theoretical basis and technical support for DSC engineering applications. Hindawi 2021-02-25 Article PeerReviewed pdf en http://umpir.ump.edu.my/id/eprint/31519/1/2021%20%28UMPIR%29%20Study%20the%20Fire%20Resistance%20of%20Desert%20Sand%20Concrete%20%28DSC%29%20with%20Interface%20Phase%20through%20Uniaxial%20Compression%20Tests%20and%20Analyses.pdf Zhang, Qian and Liu, Haifeng and Liu, Qiang and Che, Jialing and Yang, Weiwu and Ma, Jurong and Doh, Shu Ing and Lim, Kar Sing (2021) Study the fire resistance of desert sand concrete (DSC) with interface phase through uniaxial compression tests and analyses. Advances in Civil Engineering, 2021. p. 21. ISSN 1687-8094 https://doLorg/10.1155/2021/8863136 |
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TA Engineering (General). Civil engineering (General) Zhang, Qian Liu, Haifeng Liu, Qiang Che, Jialing Yang, Weiwu Ma, Jurong Doh, Shu Ing Lim, Kar Sing Study the fire resistance of desert sand concrete (DSC) with interface phase through uniaxial compression tests and analyses |
| description |
The shortage of sand resources and high-rise building fires are becoming increasingly prominent. Desert sand (DS) with smaller particles can effectively fill the concrete voids and further improve its working performance; it is used as a fine aggregate to produce concrete. This article studied the performance of desert sand concrete (DSC) against fire resistance by using mathematical modeling for simulation. The stress-strain curves of desert sand mortar (DSM) after elevated temperatures were tested, and the constitutive model was established. By comparing the experiment and simulation results, it was verified that the model is suitable to be adopted in this study. Data from experiment and past literature can serve as parameters for the subsequent simulation. The destruction process of DSC under uniaxial compression after elevated temperature was simulated by using ANSYS. The simulation results indicated that, after elevated temperature, compressive strength reduced with increase of interface thickness. The compressive strength of DSC had a substantially linear increase as the interface compressive strength increased. For two-grade coarse aggregate, the optimum volume content was 45%, and particle size of it showed a significant effect on the compressive strength of DSC. The DSM constitutive model and simulation results can provide a sound theoretical basis and technical support for DSC engineering applications. |
| format |
Article |
| author |
Zhang, Qian Liu, Haifeng Liu, Qiang Che, Jialing Yang, Weiwu Ma, Jurong Doh, Shu Ing Lim, Kar Sing |
| author_facet |
Zhang, Qian Liu, Haifeng Liu, Qiang Che, Jialing Yang, Weiwu Ma, Jurong Doh, Shu Ing Lim, Kar Sing |
| author_sort |
Zhang, Qian |
| title |
Study the fire resistance of desert sand concrete (DSC) with interface phase through uniaxial compression tests and analyses |
| title_short |
Study the fire resistance of desert sand concrete (DSC) with interface phase through uniaxial compression tests and analyses |
| title_full |
Study the fire resistance of desert sand concrete (DSC) with interface phase through uniaxial compression tests and analyses |
| title_fullStr |
Study the fire resistance of desert sand concrete (DSC) with interface phase through uniaxial compression tests and analyses |
| title_full_unstemmed |
Study the fire resistance of desert sand concrete (DSC) with interface phase through uniaxial compression tests and analyses |
| title_sort |
study the fire resistance of desert sand concrete (dsc) with interface phase through uniaxial compression tests and analyses |
| publisher |
Hindawi |
| publishDate |
2021 |
| url |
http://umpir.ump.edu.my/id/eprint/31519/1/2021%20%28UMPIR%29%20Study%20the%20Fire%20Resistance%20of%20Desert%20Sand%20Concrete%20%28DSC%29%20with%20Interface%20Phase%20through%20Uniaxial%20Compression%20Tests%20and%20Analyses.pdf http://umpir.ump.edu.my/id/eprint/31519/ https://doLorg/10.1155/2021/8863136 |
| _version_ |
1703960798475321344 |
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