Slake Durability of the Compacted-Siltstone Fragment With Cement Stabilization

Hartono, Edi; Wardani, Sri Prabandiyani Retno; Muntohar, Agus Setyo

doi:10.21660/2019.64.84678

Cited by 4 publications

(1 citation statement)

References 20 publications

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“…The soil-cement base course is made of soil stabilized with cement to increase soil strength [4]. Cement is a binder often chosen from several types of binders in soil stabilization, either used alone or combined with other substances such as lime [5], volcanic ash [6], and others.…”

Section: Introductionmentioning

confidence: 99%

Determination of Optimum Cement Content for Silty Sand Soil Stabilization as the Base Course

2024

GEOMATE

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The aggregate base course is important in the flexible pavement structure, requiring quality materials. In areas where quality material is difficult to find, local soil stabilization using cement is needed to obtain material to replace the aggregate base course. This study aimed to determine the optimum cement content in stabilizing sand-silty soil that meets the requirements specified in the General Specification of Highways 2018 for Road and Bridge Works and to find the effect of pH-soaking water. The research was conducted in the laboratory by testing the Unconfined Compressive Strength of soil cement using variations in cement content of 3%, 5%, 8%, and 10% of the dry weight of soil, soaking time of 3, 7, 14, and 28 days; and pH of soaking water (tap water with a pH value of 8, water with pH value of 4 (containing H2SO4), water with pH value of 9 (containing NaOH)). Cement content of 8% and 10% meets the minimum UCS value according to road specifications. The optimum cement content (which produces the UCS target specification value of 2353.60 kPa) is 9% on the seventh day. Soaking water with pH 4 and 9 decreased the UCS of soaking water with a pH value of 8. A soil cement base course can substitute an aggregate base course in areas with inadequate aggregate material with an 80% CBR value.

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Section: Introductionmentioning

confidence: 99%

Determination of Optimum Cement Content for Silty Sand Soil Stabilization as the Base Course

2024

GEOMATE

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The Effect of Soil Porosity and Geopolymer Viscosity on Spreading Grouting in Weathered Clay Shale

Sumiyanto

Wardani

Munthohar

2021

IOP Conf. Ser.: Mater. Sci. Eng.

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Fly ash geopolymer is a potential material for the stabilisation of clay shale. Therefore, this research determines the effect of soil porosity (n), binder activator ratio (f/a), and geopolymer viscosity on the injected grout volume (Vi ) and soil-grout column of weathered clay shale. The research was carried out using fly ash as a geopolymer binder, dissolved in Na2SiO3 and NaOH(10M) with an activator ratio of 1:1. The binder activator ratios were 0.50, 0.75, 1.0, and 1.25, with injection applied in the compacted clay shale using three dry densities corresponding to the porosity of 0.42, 0.48, and 0.54. Furthermore, a cylindrical specimen with 46 mm diameter and 100 mm height was used to carry out this test. A hole with a diameter of 12 mm and 80 mm depth was bored at the centre of the specimen to model a fracture grouting method, which was injected with the geopolymer by applying a pressure of 100 kPa for 20 minutes. The research found that the higher the binder activator ratio, the lesser the viscosity obtained; therefore, the grout easily penetrated the pores between the soil particles. As a consequence, more volume of geopolymer could be injected in soil. Binder activator ratio lesser than 0.75 was ineffective for the injection method, and binder activator ration between 1.00 - 1.25 was recommended for the grouting injection method. A new equation to determine the grout diffusion was proposed based on this experiment, as written in the equation ( R i / R b ) n ⋅ f / a = K ( V i / π ⋅ R b 2 ⋅ L ) n ⋅ f / a .

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Su bazlı kopolimer uygulaması ile tüflerin suda dağılmaya karşı duraylılık indeksi değerlerinin iyileştirilmesi

KURŞUNOĞLU,

ANKARA

2023

Gümüşhane Üniversitesi Fen Bilimleri Enstitüsü Dergisi

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Tuff has been used as a natural building stone in the construction industry since the earliest times. Tuff is slight, simple to manufacture, and has good isolation qualities, which is why it is used so frequently despite its low strength characteristics and high porosity. In this study, samples of white and pink tuff from the regions of Derbent and Gümele districts of Eskisehir province were treated with a water-based (water-soluble) copolymer bath to evaluate their endurance to atmospheric conditions. Spherical samples were subjected to 30-minute slake durability index testing in a water-based copolymer bath. The index values of the initial spherical samples were contrasted with the index values from the fourth cycle of the spherical samples that had received the copolymer bath treatment. Although the index values of the original spherical samples were determined to be 92.22% and 95.32%, respectively, the index values of the spherical sample sets treated with a water-based copolymer bath were determined to be 98.29% and 98.83%, respectively. The study results indicate that spherical samples with a water-based copolymer bath treatment had a greater impact on improving the slake durability index values compared to spherical samples without treatment.

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Slake Durability of the Compacted-Siltstone Fragment With Cement Stabilization

Cited by 4 publications

References 20 publications

Determination of Optimum Cement Content for Silty Sand Soil Stabilization as the Base Course

Determination of Optimum Cement Content for Silty Sand Soil Stabilization as the Base Course

The Effect of Soil Porosity and Geopolymer Viscosity on Spreading Grouting in Weathered Clay Shale

Su bazlı kopolimer uygulaması ile tüflerin suda dağılmaya karşı duraylılık indeksi değerlerinin iyileştirilmesi

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