Interface Shear Behavior of Sandy Soil-FRP with Epoxy Hardness Effect and Abrasion
Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review
Author(s)
Related Research Unit(s)
Detail(s)
Original language | English |
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Article number | 04024064 |
Journal / Publication | Journal of Composites for Construction |
Volume | 28 |
Issue number | 6 |
Online published | 24 Sept 2024 |
Publication status | Published - Dec 2024 |
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Abstract
The application of fiber-reinforced polymer (FRP) composites as piling materials in harsh environments has gained popularity due to their high corrosion resistance. FRP composites can be fabricated using different types of epoxy resin matrices and fibers. This study aims to investigate the interface behavior between sand and FRP materials with varying levels of hardness, with a particular emphasis on the abrasive surface wear of FRP. Monotonic interface shear tests (under normal stresses of 50, 100, 200, and 400 kPa) and interface shear tests repeated 20 times (under normal stresses of 200 and 400 kPa) are performed. The local surface roughness of the FRP plates is measured for tested samples under both monotonic and repeated loadings using laser scanning to evaluate the accumulated abrasion effect. The results of monotonic tests indicate that under a given shear displacement and normal stress, the samples with softer FRP plates exhibit higher interface friction angles and more pronounced dilative behavior. Following repeated tests, the interface friction angles of softer FRP specimens decrease, while the surface roughness of the FRP plates gradually increases. However, for the softest FRP plate, its surface is severely damaged after repeated tests under high normal stress levels, leading to unstable changes in the test results. © 2024 American Society of Civil Engineers.
Research Area(s)
- Interface shear, Repeated loading, Sand, Surface abrasion, Surface hardness
Citation Format(s)
Interface Shear Behavior of Sandy Soil-FRP with Epoxy Hardness Effect and Abrasion. / Teng, Jing-Cheng; Yin, Zhen-Yu; Chen, Wen-Bo et al.
In: Journal of Composites for Construction, Vol. 28, No. 6, 04024064, 12.2024.
In: Journal of Composites for Construction, Vol. 28, No. 6, 04024064, 12.2024.
Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review