Reinforcement of Bearing Capacity Foundation using Single Soil Column Method Fixed Diameter 3.2 cm with Calcium Carbide Residue (CCR) and Rice Husk Ash (RHA) Mixed Materials

Authors

  • Dwi Wahyuni Politeknik Negeri Sriwijaya Palembang Indonesia
  • Ratna Dewi Politeknik Negeri Sriwijaya Palembang
  • Yulindasari Yulindasari Politeknik Negeri Sriwijaya Palembang
  • Siti Nur Indah Sari Politeknik Negeri Sriwijaya Palembang

DOI:

https://doi.org/10.22135/sje.2023.8.2.104-108

Abstract

Soil reinforcement method is one of the efforts to improve the technical properties of soil, such as soil bearing capacity, compressibility and permeability. The soil column method is one of the alternatives to improve physical properties by stabilization to improve soil bearing capacity. This research aims to increase the bearing capacity of the sole foundation by using the soil column method with a mixture of clay, 3% calcium carbide residue (CCR) and 12% Rice Hush Ash (RHA). This research was conducted experimentally in the laboratory using clay test specimens taken from Padamaran Village, OKI, South Sumatra Province, which were put into a test box with 1 m x 1 m x 1.4 m dimensions. The soil column modelling in this research used the soil column method. The soil column modelling in this study used a single column variation with a diameter of 3.2 cm with lengths of 40 cm, 46 cm, and 53 cm, respectively. The results are the clay foundation plate's ultimate soil bearing capacity (qu) before and after reinforcement with the soil column method. The bearing capacity of the footprint foundation plate on the largest clay soil occurs in the soil column variation with a length of 40 cm and a diameter of 3.2 cm, where the bearing capacity of the clay soil, which was originally 140 kPa increased to 21 kPa. In the experimental results of the loading test, the longer the column, the bearing capacity of the column decreases, which may have something to do with the slenderness factor of the column. The slimmer the column, the smaller the compressive strength of the column so that the tendency of the column to bend/collapse becomes greater. It happens because slender columns not only accept axial forces but also consider the addition of secondary moments due to the slenderness of the column. Then, the column cannot withstand the shear load due to the compacted clay soil around the column.

Keywords:

Soil Column, Bearing Capacity, Rice Ash Hush (RHA), Calcium Carbide Residue

References

Wong, Leong., “ Mechanical Behavior of Compacted and Stabilized Clay with Kaolin and Cementâ€. Jordan Journal of Civil Engineering, Vol.9: 10.14525, 2015.

Calcium Carbide Residueâ€, International Journal of Innovative Research in Science, Engineering and Technology, 5(9): 17023-17030, 2016.

Bakar, R., A., Yahya, R., Gan, S., N., “ Productionof High Purity Amorphous Silica from Rice Huskâ€. Prosedia Chemistryâ€, 19: 189-195, 2016.

Oktavia, Dina and Dewi, Ratna and Saloma, Saloma, “Pengaruh Variasi Jarak, Panjang Kolom dan Diameer Deep Soil Mixing Terhadap Perkuatan Daya Dukung Tanah Gambutâ€, Undergraduate thesis, Sriwijaya University, 2019.

Vichan, Songsuda, “Chemical stabilization of soft Bangkok clay using the blend of calcium carbide residue and biomass ashâ€, Soils and Foundations, Vol.53: 272- 281, 2013.

Astusi, Indah and Dewi, Ratna , “Pengaruh Variasi Jarak, Panjang Kolom dan Diameer Deep Soil Mixing (Tanah lempung + 3% CCR) Terhadap Perkuatan Daya Dukung Tanah Gambutâ€, Undergraduate thesis, Sriwijaya

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Published

09/08/2023

Issue

Vol. 8 No. 2 (2023): ENVIRONMENTAL TECHNOLOGY

Section

Articles

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