Pembangunan Jalan Bebas Hambatan Ibu Kota Negara Segmen Jembatan Pulau Balang – SP. Riko

Authors

  • Salman Satuan Kerja Pelaksanaan Pembangunan IKN 2 Provinsi Kalimantan Timur Author
  • Marnida Satuan Kerja Pelaksanaan Pembangunan IKN 2 Provinsi Kalimantan Timur Author
  • Toto Satuan Kerja Pelaksanaan Pembangunan IKN 2 Provinsi Kalimantan Timur Author

DOI:

https://doi.org/10.71282/jurmie.v2i2.129

Keywords:

Embankment Stability, Soil Bearing Capacity, Replacement, Geotechnical Analysis

Abstract

The construction of the Nusantara Capital City (IKN) Expressway, Segment Pulau Balang Bridge – Sp. Riko, is part of the toll road network supporting accessibility in East Kalimantan Province. In this project, a geotechnical analysis was conducted on the embankment at STA 1+325 to STA 1+475 to ensure the stability and bearing capacity of the subsoil. The investigation results indicate that the surface soil conditions in the area exhibit low stability characteristics, with an average cone resistance (qc) value ranging from 4 to 8 kg/cm² at a depth of 2 meters, indicating very soft to soft soil consistency. To address the soil bearing capacity issue, various improvement methods were applied, including subsoil replacement with granular material up to 2 meters thick and stability analysis using PLAXIS 2D software. The modeling results show that the safety factor without treatment was 1.350 under service conditions and 1.116 under seismic conditions, which did not meet design criteria. After implementing the 2-meter replacement method, the safety factor increased to 1.715 under service conditions and 1.258 under seismic conditions, thus meeting stability standards. Therefore, the 2.0-meter replacement method is recommended as an effective solution to enhance the bearing capacity and embankment stability in the study area.

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References

Bowles, J.E. (1997). Analisis dan Perancangan Fondasi. Jakarta: Erlangga. Hal. 125-130.

Das, B.M. (2014). Mekanika Tanah (Prinsip-Prinsip Rekayasa Geoteknis). Jakarta: Erlangga. Hal. 87-92.

Duncan, J.M., & Buchignani, A.L. (1976). Advanced Soil Mechanics. Jakarta: Penerbit Universitas Indonesia. Hal. 145-150.

Hansen, B. (1970). Metode Perhitungan Daya Dukung Tanah. Bandung: ITB Press. Hal. 60-65.

Meyerhoff, G.G. (1963). Dasar-Dasar Rekayasa Geoteknik. Yogyakarta: Gadjah Mada University Press. Hal. 112-118.

Robertson, P.K. (1990). Pengujian CPT dalam Rekayasa Tanah. Jakarta: Gramedia. Hal. 75-80.

Robetson, P.K., & Campanella, R.G. (1986). Penentuan Jenis Tanah dengan CPT. Bandung: ITB Press. Hal. 93-100.

Schmertmann, J.H. (1978). Soil Behavior and Geotechnical Testing. Surabaya: ITS Press. Hal. 55-60.

SNI 8460:2017. (2017). Perancangan Struktur Tanah dan Fondasi. Jakarta: Badan Standardisasi Nasional (BSN). Hal. 30-35.

SNI 1726:2019. (2019). Tata Cara Perencanaan Ketahanan Gempa untuk Struktur Bangunan Gedung dan Non Gedung. Jakarta: Badan Standardisasi Nasional (BSN). Hal. 40-45.

Sorensen, K.K., & Okkels, N. (2013). Korelasi Parameter Tanah Lempung. Yogyakarta: Andi. Hal. 98-103.

Vesic, A.S. (1970). Analisis Stabilitas Timbunan. Jakarta: Penerbit ITB. Hal. 67-72.

Bergdahl, U., & Johansson, L. (1993). Teknik Fondasi dan Konstruksi Geoteknik. Jakarta: Rineka Cipta. Hal. 135-140.

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Published

07-02-2025

Issue

Vol. 2 No. 2 (2025): Jurnal Resit Multidisiplin Edukasi (Edisi Februari 2025)

Section

Articles

License

Copyright (c) 2025 Salman, Marnida, Toto (Author)

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

How to Cite

Pembangunan Jalan Bebas Hambatan Ibu Kota Negara Segmen Jembatan Pulau Balang – SP. Riko. (2025). Jurnal Riset Multidisiplin Edukasi, 2(2), 85-106. https://doi.org/10.71282/jurmie.v2i2.129

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