Mechanical and Functional Property Investigation of 2-Layered Pervious Concrete
Author(s): |
B. M. Spoorthy
Anush K. Chandrappa Umesh C. Sahoo |
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Medium: | journal article |
Language(s): | English |
Published in: | The Open Civil Engineering Journal, 28 February 2022, n. 1, v. 16 |
DOI: | 10.2174/18741495-v16-e220922-2022-ht31-3975-1 |
Abstract: |
BackgroundPervious concrete pavements are considered as one of the well accepted stormwater management strategies as per environmental protection agencies. The interconnected pore structure in the pervious concrete allows the stormwater to percolate and thus reduce the runoff. MethodsThe laboratory and field investigations on the pervious concrete pavements have shown that the abrasion and clogging are major distresses that reduce the functional performance of these sustainable pavements. The open graded structure of the pervious concrete undergoes ravelling due to the vehicular movement and they may also allow the suspended particles in stormwater runoff to get clogged inside the pore structure. In this study, 2-layered pervious concrete was designed to balance the trade-offs between the strength and durability. The porosity and density of 2-layered pervious concrete was found to be in the domain on conventional pervious concrete. ResultThe failure pattern in compression indicated that failure of the specimen was concentrated on the bottom layer compared to the top layer. Further, the compressive strength was found to be in the range of 11.90 to 20.0 MPa. The pore distribution at the interface of the top and bottom aggregate was found to follow 3-parameter Weibull distribution, where the scale parameter increased as the aggregate size increased. The abrasion resistance was found to be lower compared to conventional pervious concrete. ConclusionOverall, it was found that 2-layered pervious concrete can be one of the alternatives to implement pervious concrete pavements addressing the demerits of conventional pervious concrete. |
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data sheet - Reference-ID
10698099 - Published on:
11/12/2022 - Last updated on:
11/12/2022