STUDI LITERATUR KORELASI HASIL UJI BERDASARKAN UJI PLATE BEARING DAN UJI DYNAMIC CONE PENETROMETER
Article Sidebar
Main Article Content
Abstract
The subgrade soils must be able to withstand the load that is transferred. The quality of the subgrade soil is important because if it is sturdy, the construction above it can also be sturdy as well. Therefore, in designing a construction, soil investigation, such as plate bearing test and dynamic cone penetrometer test, must be conducted. However, one method may be superior compared to others, that the author will analyze the correlation between them. Plate bearing test is an in-situ test used for determining the ultimate bearing capacity of soil by only applying pressure to it. Whereas, dynamic cone penetrometer test is a testing method to measure the thickness and strength of soil. In this research, the collected data will be analyzed and correlated. The result of correlation between ks and CBR from DCP test is the determinant coefficient value. The value for clayey soils is 0.6198 which means that the correlation value is strong. Meanwhile, for sandy soils, the values are 0.9841 and 0.9878 which means both of the correlation values are very strong. Furthermore, the correlation of Su values from both tests cannot be determined because the soil samples have not reached the fracture condition.
Lapisan subgrade merupakan lapisan yang menahan seluruh beban di atasnya. Kualitas dari lapisan ini sangat penting, karena jika lapisan subgrade tersebut kokoh, maka konstruksi di atasnya juga akan kokoh. Oleh karena itu, dalam merencanakan sebuah konstruksi, penyelidikan tanah, seperti uji plate bearing dan uji dynamic cone penetrometer, di lokasi suatu bangunan yang akan dibangun itu sangat penting. Namun, setiap metode penyelidikan tanah tentunya memiliki kelebihan dan kekurangan masing-masing, sehingga penulis akan menganalisa korelasi antara kedua pengujian. Uji plate bearing merupakan metode pengujian untuk menentukan nilai daya dukung tanah dengan hanya memberikan tekanan pada tanah. Sedangkan, uji dynamic cone penetrometer merupakan metode pengujian untuk mengetahui nilai ketebalan dan kekuatan suatu lapisan tanah. Pada penelitian ini, data yang sudah dikumpulkan akan dianalisa dan dikorelasikan. Hasil korelasi antara nilai modulus reaksi tanah dasar dan CBR dari uji DCP untuk jenis tanah lempung menghasilkan koefisien determinan sebesar 0.6198 yang artinya nilai korelasi tersebut kuat. Sedangkan, untuk jenis tanah pasir, didapatkan koefisien determinan sebesar 0.9841 dan 0.9878 yang artinya nilai korelasi tersebut sangat kuat. Kemudian, untuk korelasi nilai kuat geser tanah dari masing-masing pengujian belum bisa dijelaskan karena sampel tanah yang digunakan belum mencapai kondisi fracture.
Article Details
References
Abd-Ali, Mohammed Salih. "Evaluation of Allawable Bearing Capacity of Soil By Plate Bearing Test. A Case Study in Al-Diwaniyah City." Iraq Academic Scientific Journal 13.1 (2013): 101-111. 2020. <https://www.iasj.net/iasj?func=article&aId=79996>.
Abu-Farsakh, Murad Y., et al. Assesment of In-Situ Test Technology for Construction Control of Base Courses and Embankments. Louisiana State University. Baton Rouge, 2004. 2020.
Alshkane, Younis M., Kamal Ahmad Rashed and Hyam Saleh Daoud. "Unconfined Compressive Strength (UCS) and Compressibility Indices Predictions from Dynamic Cone Penetrometer Index (DCP) for Cohesive Soil in Kurdistan Reqion/Iraq." Geotech Geol Eng (2020). 2020. <https://link.springer.com/article/10.1007%2Fs10706-020-01245-1>.
Anyang, M. Y., et al. "Plate Load Test: Getting it Right." 49th Ghana Institution of Engineers (GhIE) Annual Conference. Ghana, 2018. 1-7. 2020.
ASTM International. ASTM D1994-94, Standard Test Method for Bearing Capacity of Soil for Static Load and Spread Footings. Philadelphia, 1994. 2020. <https://www.astm.org/Standards/D1194>.
Bowles, Joseph E. Foundation Analysis and Design. 5th. New York City: McGraw-Hill, 1997. 2020.
Christandy, Yosua, et al. "Kajian Nilai Modulus Reaksi Subgrade dan Nilai CBR Berdasarkan Pengujian di Laboratorium." G-SMART : Jurnal Teknik Sipil Unika Soegijapranata 1.1 (2017): 43-48. 2020. <http://journal.unika.ac.id/index.php/gsmart/article/view/924>.
Das, Braja M. Principles of Foundation Engineering. Ed. Hilda Gowans. 7th. Boston: Cengage Learning, 2010. 2020.
—. Principles of Foundation Engineering. Ed. Hilda Gowans. 8th. Boston: Cengage Learning, 2015. 2020.
Dirriba, Alemayehu. Developing Correlation Between Dynamic Cone Penetration Index (DCPI) and Unconfined Compression Strength (UCS) of the Soils in Alem Gena Town. Master Thesis. Addis Ababa University. Addis Ababa, 2017. 2020. <http://etd.aau.edu.et/handle/123456789/644>.
Fauzi, Lutfy Ahmad and Ikhya. “Analisis Kapasitas Daya Dukung Pondasi Dangkal Tipe Menerus Pengaruh Kedalaman Tanah Keras." Reka Racana: Jurnal Teknik Sipil 2.2 (2016): 36-46. 2020. <https://ejurnal.itenas.ac.id/index.php/rekaracana/article/view/995>.
Kementerian Pekerjaan Umum. Surat Edaran Menteri Pekerjaan Umum No. 04/SE/M/2010 tentang Pemberlakuan Pedoman Cara Uji California Bearing Ratio (CBR) dengan Dynamic Cone Penetrometer (DCP). Jakarta: Kementerian Pekerjaan Umum, 2010. 2020.
Kusumah, Haadi and Hartono. “Analisa Daya Dukung dan Penurunan Tanah Terhadap Pondasi Telapak di Pembangunan Ruko Jl. Pelabuhan II Kota Sukabumi." SANTIKA: Jurnal Ilmiah Sains dan Teknologi 8.2 (2018): 275-283. 2020. <https://jurnal.ummi.ac.id/index.php/santika/article/view/396>.
Kwandy, Reyner, Gregorius Sandjaja Sentosa and Ali Iskandar. "Prediksi Penurunan Gedung dan Daya Dukung Menggunakan Hasil Uji Plate Bearing di Labuan Bajo, NTT." Jurnal Mitra Teknik Sipil 2.2 (2019): 75-84. 2020. <https://journal.untar.ac.id/index.php/jmts/article/view/4296>.
Mardianus, Abubakar Alwi and Aprianto. "Korelasi Daya Dukung Tanah Dasar yang Didapat dari Hasil Uji Sondir (Cone Penetration Test), Dynamic Cone Penetrometer (DCP) dan Plate Bearing Test." Jurnal Mahasiswa Teknik Sipil Universitas Tanjungpura 7.1 (2020). 2020. <http://jurnal.untan.ac.id/index.php/JMHMS/article/view/40246>.
Mohammadi, S. D., et al. "Application of the Dynamic Cone Penetrometer (DCP) for Determination of the Engineering Parameters of Sandy Soils." Engineering Geology 101.3-4 (2008): 195-203. 2020. <https://www.sciencedirect.com/science/article/pii/S0013795208001397?via%3Dihub>.
—. "Unit Skin Friction from The Extended Dynamic Cone Penetrometer (EDCP) Test Supplemented By Measurement of Torque Within Testing Wells." IJST : Iranian Journal of Science and Technology - Transactions of Civil Engineering 36.C1 (2012): 115-119. 2020. <http://ijstc.shirazu.ac.ir/article_652.html>.
Rahmawati, Aulia, Yulvi Zaika and Eko Andi Suryo. "Perbandingan Modulus Reaksi Subgrade Berdasarkan Uji CBR Terhadap Hasil Uji Beban Pelat (Studi Kasus : Perencanaan Perkerasan Kaku)." Jurnal Mahasiswa Jurusan Teknik Sipil 1.1 (2014): 91-98. 2020. <http://sipil.studentjournal.ub.ac.id/index.php/jmts/article/view/15>.
Sriharyani, Leni and Diah Oktami. "Kajian Penggunaan Dynamic Cone Penetrometer (DCP) untuk Uji Lapangan Pada Tanah Dasar Pekerjaan Timbunan Apron (Studi Kasus di Bandar Udara Radin Inten II Lampung)." TAPAK (Teknologi Aplikasi Konstruksi) 5.2 (2016): 89-97. 2020. <https://ojs.ummetro.ac.id/index.php/tapak/article/view/128/0>.