Influence of Brick Powder with Different Replacement Ratio on Concrete Performance and its Microscopic Mechanism
Due to the shortcomings of waste bricks, they cannot be used repeatedly. The brick powder can partially replace cement for construction production, which can solve the problem of cement energy consumption. This paper studies the influence of brick powder on the performance of cement-based materials....
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| Published in | Applied mechanics and materials Vol. 914; pp. 129 - 139 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
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Trans Tech Publications Ltd
15.05.2023
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| Abstract | Due to the shortcomings of waste bricks, they cannot be used repeatedly. The brick powder can partially replace cement for construction production, which can solve the problem of cement energy consumption. This paper studies the influence of brick powder on the performance of cement-based materials. The research shows that the water absorption effect of brick powder and the friction force are the two main factors affecting concrete. Energy dispersive spectrometer, inductively coupled plasma mass spectrometry and compressive strength tests show that the addition of brick powder leads to the increase of silicon/calcium. inductively coupled plasma mass spectrometry shows that although brick powder dissolves in the early stage, the volcanic ash effect is weak. The results of mercury intrusion porosimetry and ultrasonic pulse velocity are consistent with the compressive strength. When 5 % is added, it shows excellent durability. In addition, with the increase of age, the durability will not decrease significantly. Since the brick powder only needs to be ground to avoid the related process of cement, good economic and environmental benefits can be obtained with the increase of substitution rate. |
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| AbstractList | Due to the shortcomings of waste bricks, they cannot be used repeatedly. The brick powder can partially replace cement for construction production, which can solve the problem of cement energy consumption. This paper studies the influence of brick powder on the performance of cement-based materials. The research shows that the water absorption effect of brick powder and the friction force are the two main factors affecting concrete. Energy dispersive spectrometer, inductively coupled plasma mass spectrometry and compressive strength tests show that the addition of brick powder leads to the increase of silicon/calcium. inductively coupled plasma mass spectrometry shows that although brick powder dissolves in the early stage, the volcanic ash effect is weak. The results of mercury intrusion porosimetry and ultrasonic pulse velocity are consistent with the compressive strength. When 5 % is added, it shows excellent durability. In addition, with the increase of age, the durability will not decrease significantly. Since the brick powder only needs to be ground to avoid the related process of cement, good economic and environmental benefits can be obtained with the increase of substitution rate. |
| Author | Tier, Laire Li, Te |
| Author_xml | – givenname: Te surname: Li fullname: Li, Te email: lairetier@seu.edu.cn organization: Chongqing University : Faculty of Materials Science and Engineering – givenname: Laire surname: Tier fullname: Tier, Laire email: TeLi@cqu.edu.cn organization: Southeast University : Faculty of Materials Science and Engineering |
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| Keywords | Workability Durability Concrete Mechanical Properties Brick Powder |
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| SubjectTerms | Bricks Cement Compressive strength Durability Energy consumption Inductively coupled plasma mass spectrometry Mass spectrometry Porosity Scientific imaging Volcanic ash Water absorption |
| Title | Influence of Brick Powder with Different Replacement Ratio on Concrete Performance and its Microscopic Mechanism |
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