Effect of Micronized Rubber Powder on High Plastic Clay Stabilized with Cement Kiln Dust

Bussu, Sanjan

01 August 2024

Cement Kiln Dust (CKD) and Micronized Rubber Powder (MRP) offer sustainable solutions for soil stabilization, addressing both environmental and engineering challenges. CKD, a byproduct of cement manufacturing, is rich in pozzolanic materials that can enhance clayey soil properties by reducing plasticity and increasing strength. This makes CKD a valuable additive for improving the load-bearing capacity and durability of clayey soils used in construction. MRP, derived from end-of-life tires, contributes to sustainability by recycling waste rubber and adding ductility to treated soils. The incorporation of rubber waste not only helps in reducing the environmental burden of tire disposal but also enhances the flexibility and resilience of the stabilized clayey soil. Utilizing these industrial by-products in soil stabilization not only mitigates waste disposal issues but also promotes the development of resilient and eco-friendly construction materials, making them highly beneficial for sustainable infrastructure projects.The present study investigates the effects of various mix proportions of CKD and MRP on Carbondale soil, a high plastic clay. The soil was stabilized with CKD in proportions of 7%, 14%, and 21%, and MRP in proportions of 0%, 2.5%, 5%, and 10% of the dry unit weight of clayey soil. Comprehensive laboratory tests were conducted, including particle size distribution, Atterberg limits, compaction characteristics using the miniature Proctor, unconfined compressive strength (UCS), ultrasonic pulse velocity (UPV), and resilient modulus (RM). The RM test assessed the soil's elasticity under repeated loading, simulating traffic conditions to evaluate the material's performance in pavement design. These tests aimed to determine the optimal mix proportions that would provide the best combination of strength, stiffness, and durability for use in various geotechnical applications. Results from different tests showed that the addition of MRP significantly altered the properties of the CKD-stabilized soil mix. The miniature Proctor test revealed that the addition of MRP reduced the maximum dry density (MDD) of the mix and slightly increased the optimum moisture content (OMC) of the soil mix, indicating a change in compaction characteristics. From the UCS test, it was observed that while the addition of 2.5% MRP to the CKD soil mix reduced the overall strength, it absorbed considerable amount of strain. Specifically, for soil mixed with 7% CKD, the inclusion of 2.5% MRP absorbed over 60% more strain, despite a 50% reduction in strength. Similarly, the mix with 21% CKD and 2.5% MRP showed a 30% increase in peak strain with a strength reduction of up to 40%. The resilient modulus values indicated that the addition of MRP to the soil mix resulted in strain softening, leading to decreased RM values. The soil mix with 7% CKD and 2.5% MRP showed almost no gain in RM values across all curing periods due to strain softening effects. However, the regression analysis between predicted and experimental RM values showed a positive correlation, with a coefficient of determination (R2) ranging from 0.7 to 0.96, indicating a reliable predictive model for RM based on the tested parameters. These findings highlight the trade-offs between strength and stiffness in CKD and MRP-stabilized soils, offering insights for optimizing soil stabilization techniques in sustainable construction practices

Cement Kiln Dust

ductility

high plasticity clay

resilient modulus

Rubber Powder

Mechanické vlastnosti mořských sedimentů v okolí přístavu Koper a numerické modelování hluboké základové jámy / Mechanical properties of marine sediment near Koper and numerical modelling of a deep excavation

Tůma, Pavel

January 2010

Mechanical properties of marine sediment near Koper and numerical modelling of a deep excavation Engineering geological conditions near the port Koper in southwestern Slovenia forces geotechnical experts and civil engineers to solve problems in foundation various types of objects and purpose of the practice since the fifties of last century, when it began an intensive development of infrastructure of the port. The results of series of geological and geotechnical surveys, monitoring, and long experience with foundation in the local geology shows that it is almost always the 3rd geotechnical category, or foundation of complex structures in difficult geological conditions below the water table. The entire area belongs to Alpine-Dinaric tectonic area. The rock foundation is composed of complexes of flysch sediments Eocene age at which mounted files of recent marine sediments in the area widely submerged river valley fluvial sands and gravels. From the geotechnical point of view it is interesting site, where most buildings were based on a layer of soft marine sediments, where it is through the creation of special methods implemented in the establishment of deep-level endurable layers of gravel and sand of the river Rižana or at the level footingwall flysch. Set of marine sediments near the port Koper,...