Liquefaction resistance of polypropylene strips reinforced sand-fly ash blend under strain-controlled cyclic triaxial test

Kumar, Deepak; Sengupta, Siddhartha

doi:10.1007/s41062-022-00944-3

Cited by 1 publication

(1 citation statement)

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“…The UCS test MICP reactants to the desired that is ability to control the CaCO3 precipitation location in the MICP process (Sengupta, 2022) Polypropylene, length 5 mm, 0, 0, 0.1, 0.2, 0.3, and 0.4% by dry mass from the soil Clay (%) = 28 Silt (%) =57 Sand (%) = 15…”

Section: Sandmentioning

confidence: 99%

A Review _soil Improvement Using the Multi Type of Polypropylene Material

M. ABDULRAHMAN,

S.A. AL-GHARBAWI,

S. ABDULRASOOL

2023

MINAR Journal

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The increasing recognition among individuals of the detrimental impact of humanmade substances on the natural world has resulted in the development of more ecologically sound substitutes for ensuring the durability of diverse polymers. Researchers have demonstrated a notable propensity towards a methodology for producing substances that possess the ability to serve as an alternative to artificial compounds. In recent years, there has been a notable surge in demand for composite materials comprising both natural and synthetic fibers for commercial purposes, which has had a significant impact on multiple industrial sectors. Natural fibers are a category of substances that are environmentally degradable and abundantly present in their native ecosystems. The aforementioned materials exhibit characteristics such as economical viability, low mass density, inherent ability to regenerate, biodegradability, and distinctive attributes. The primary aim was to evaluate cost-effective methods for soil stabilization. The study investigates a range of materials that have the potential to enhance soil characteristics, such as polypropylene, fiber glass, and fiber plastic. The text examines the potential of said materials to augment shear strength and ameliorate soil quality through the reduction of plasticity, permeability, and compressibility, as well as the enhancement of soil strength

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Section: Sandmentioning

confidence: 99%