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Acoustic emission characteristics and crack resistance of basalt fiber reinforced concrete under tensile load
https://orcid.org/0000-0002-8047-3398
https://orcid.org/0000-0002-5896-1336
Highlights Revealing the effects of different basalt fiber content on the tensile strength of concrete. Obtaining the influence of different basalt fiber content on the AE characteristics of concrete. Revealing the influence of basalt fiber content on crack resistance of concrete.
Abstract Brazilian splitting tests were carried out to study the influence of basalt fiber content on the acoustic emission (AE) characteristics and crack resistance of concrete. The relationship between AE characteristic parameters (counts and energy) and cumulative events with basalt fiber content in basalt fiber reinforced concrete (BFRC) was studied. The statistical analysis methods of AE signals (average frequency and RA) were used to determine the crack modes (tensile crack or shear crack) of BFRC. The surface horizontal strain and its standard deviation of BFRC were measured by digital image correlation (DIC) technology to study the crack resistance of BFRC. Results show that an appropriate basalt fiber content (0.39%) can effectively improve the tensile strength and reduce the strength of AE characteristic parameters and the magnitude of cumulative events. In the failure process of BFRC, the proportion of tensile crack reaches the minimum when the fiber content is 0.39%, but the shear cracks is on the contrary. An appropriate basalt fiber content (0.39%) can improve the fracture tortuosity and reduce horizontal strain and its standard deviation, which further shows that basalt fiber can effectively improve the crack resistance of concrete.
Acoustic emission characteristics and crack resistance of basalt fiber reinforced concrete under tensile load
https://orcid.org/0000-0002-8047-3398
https://orcid.org/0000-0002-5896-1336
Highlights Revealing the effects of different basalt fiber content on the tensile strength of concrete. Obtaining the influence of different basalt fiber content on the AE characteristics of concrete. Revealing the influence of basalt fiber content on crack resistance of concrete.
Abstract Brazilian splitting tests were carried out to study the influence of basalt fiber content on the acoustic emission (AE) characteristics and crack resistance of concrete. The relationship between AE characteristic parameters (counts and energy) and cumulative events with basalt fiber content in basalt fiber reinforced concrete (BFRC) was studied. The statistical analysis methods of AE signals (average frequency and RA) were used to determine the crack modes (tensile crack or shear crack) of BFRC. The surface horizontal strain and its standard deviation of BFRC were measured by digital image correlation (DIC) technology to study the crack resistance of BFRC. Results show that an appropriate basalt fiber content (0.39%) can effectively improve the tensile strength and reduce the strength of AE characteristic parameters and the magnitude of cumulative events. In the failure process of BFRC, the proportion of tensile crack reaches the minimum when the fiber content is 0.39%, but the shear cracks is on the contrary. An appropriate basalt fiber content (0.39%) can improve the fracture tortuosity and reduce horizontal strain and its standard deviation, which further shows that basalt fiber can effectively improve the crack resistance of concrete.
Acoustic emission characteristics and crack resistance of basalt fiber reinforced concrete under tensile load
https://orcid.org/0000-0002-8047-3398
https://orcid.org/0000-0002-5896-1336
Highlights Revealing the effects of different basalt fiber content on the tensile strength of concrete. Obtaining the influence of different basalt fiber content on the AE characteristics of concrete. Revealing the influence of basalt fiber content on crack resistance of concrete.
Abstract Brazilian splitting tests were carried out to study the influence of basalt fiber content on the acoustic emission (AE) characteristics and crack resistance of concrete. The relationship between AE characteristic parameters (counts and energy) and cumulative events with basalt fiber content in basalt fiber reinforced concrete (BFRC) was studied. The statistical analysis methods of AE signals (average frequency and RA) were used to determine the crack modes (tensile crack or shear crack) of BFRC. The surface horizontal strain and its standard deviation of BFRC were measured by digital image correlation (DIC) technology to study the crack resistance of BFRC. Results show that an appropriate basalt fiber content (0.39%) can effectively improve the tensile strength and reduce the strength of AE characteristic parameters and the magnitude of cumulative events. In the failure process of BFRC, the proportion of tensile crack reaches the minimum when the fiber content is 0.39%, but the shear cracks is on the contrary. An appropriate basalt fiber content (0.39%) can improve the fracture tortuosity and reduce horizontal strain and its standard deviation, which further shows that basalt fiber can effectively improve the crack resistance of concrete.
Acoustic emission characteristics and crack resistance of basalt fiber reinforced concrete under tensile load
Yang, Liyun (author) / Xie, Huanzhen (author) / Zhang, Dongbin (author) / Zhang, Fei (author) / Lin, Changyu (author) / Fang, Shizheng (author)
2021-10-25
Article (Journal)
Electronic Resource
English
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