Abstract
As renewable and environment-friendly materials, coir and sisal natural fibers can be used in soil reinforcement with minimum cost and other benefits. In this study, we focused on their improvements of unconfined compressive properties of polymer treated sand. In total, 36 groups of unconfined compressive strength tests, combined with X-ray diffraction and scanning electron microscope investigations were performed. We had studied the effects of polymer and fiber contents, and fiber types on the reinforcement effectiveness. The results showed that both coir and sisal fiber can improve the mechanical properties and microstructure of treated sand. In terms of strength properties, sisal fiber inclusion was better than coir fiber, while both have a similar reinforcement benefit on soil ductile behaviors. The strength and compressive energy increased with an increment in polymer and fiber content. The reinforced sand can have up to 1 MPa compressive strength and 140 kPa compressive energy for coir fiber inclusion, while 1.2 MPa and 170 kPa, respectively, for sisal fiber. The axial stress-strain characteristics and failure patterns were also improved, and the brittle index decreased toward zero, which suggests an increasing ductile. The polymer membrane enwrapping and bonding sand grains, and the network structure built by fiber crossing and overlapping among sand grains, as well as the interfacial attachment conferred by polymer between sand grains and fiber, all contributed to the reinforcement of treated sand.
Highlights
Sand is extensively distributed in Northern China, and some natural disasters, such as foundation failures, road deformations, and soil erosion, are induced by the properties of sand with less clay content and loose structure
Liu et al [12] used water-based polyurethane to reinforce the topsoil of sandy soil slop, and the results showed that the polyurethane treatment could significantly increase the strength properties, reduce the permeability, and improve the water ability of the sand
A series of unconfined compressive strength (UCS) tests were performed on the treated sand using polymer, coir fiber, and sisal fiber to investigate the addition of natural fibers on the reinforcement benefits
Summary
Sand is extensively distributed in Northern China, and some natural disasters, such as foundation failures, road deformations, and soil erosion, are induced by the properties of sand with less clay content and loose structure. Perform compaction, unconfined compression, and tube suction tests to investigate the strength properties and water susceptibility of cement-sand, and conclude the cement-sand can be classified as a good quality base material. Short fibers are another common reinforcement material used to enhance the shear strength properties and anti-liquefaction resistance of sand [3,4]. Liu et al [4] consider the fiber content and sand density impact on liquefaction resistance of sand with undrained ring-shear tests, and find fiber reinforcement is useful for improving the static liquefaction resistance of sand
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