The Effect of w/c Ratio of Compacted Bored Pile to Friction Resistance of Unjani Clay

Penulis

  • Agus Sulaeman Unjani
  • Muhamad Agung Universitas Jenderal Achmad Yani
  • Regi Fasya Septrian Universitas Jenderal Achmad Yani

DOI:

https://doi.org/10.26874/jt.vol20no1.409

Kata Kunci:

Compaction pile, undrained shear strength, water-cement ratio, bored pile

Abstrak

The small scale physical model of drum type was set-up to obtain the effect of water cement ratio (w/c) to pile capacity and original soil. The simulation of the process of providing bored piles model, soils model, installation and tests (pile loading tests and direct shear tests) under different water cement ratio of mortar and various moisture content of clay were done. The results reveal that the higher water content of original clay the bigger friction resistance, α value as clay soil is softer and the optimum w/c-ratio (w/c = 0,4) provides more pile capacity. It is understandable that water plays an important role, contributes to the change of surrounding clay properties. The improvement of Su ( % increase) due to compaction of concrete in bored pile, migration of moisture and reaction with surrounding clay leads to take benefit of design and construction of bored pile in clay soil for the sake of efficiency and stability.

Biografi Penulis

  • Muhamad Agung, Universitas Jenderal Achmad Yani

    Jurusan Teknik Sipil

  • Regi Fasya Septrian, Universitas Jenderal Achmad Yani

    Jurusan Teknik Sipil

Referensi

Apageo, S.V,et al.(2016) “Ground Improvement vs. Pile Foundations†ISSMGE - ETC 3 International Symposium on Design of Piles in Europe. Leuven, Belgium,

Briaud, J.L, (1987) “Drilled and Grouted Piles: Construction, Integrity, Capacity†Department of Civil Engineering. Texas A&M University

Chang, M.F and Zhu, H (2004), “Construction effect on Load Transfer along Bored Pilesâ€, Journal Geotechnical and Geoenvironmental engineering ASCE

Chuang, J.L and Reese, L.C (1969).†STUDIES OF SHEARING RESISTANCE BETWEEN CEMENT MORTAR AND SOIL “UNIVERSITY OF TEXAS at AUSTIN

Clayton, R. I. and Milititsky, M. (1983) “Installation effects and the performance. “of bored piles in stiff clay†Ground Engineering, Brazil

Das, B.M. (2008). Foundation Engineering. Publisher Co, New York.

Hoque, M.I and Alamgir, M (2014) “STUDY ON THE FIELD PERFORMANCE OF GRANULAR PILE AS A GROUND IMPROVEMENT TECHNIQUE “Journal of Engineering Science 05(1), 2014, 103-114, Bangladesh

Hung, J.L, et al. (2006) “Ground Improvement piles induced shear strength in NC clay “Journal of the Chinese Institute of engineers.

Kinoshita, H, et al. (2010) “Sand Compaction Pile Technology and its Performance in both Sandy and Clayey Grounds “ISSMGE-TC 211 International Symposium on Ground Improvement IS-GI Brussels 31 May & 1 June 2012.

Narong,T, et al. (2000) “CONCRETE FOR WET PROCESS BORED PILES, GEOTECH-YEAR 2000 Developments and Geotechnical Engineering 27-30 November 2000, Bangkok, Thailand

Sulaeman, A, et.al (2015) “The Determination Of Scaling Factor of Clay Properties On One-gravity Small Scale Physical Modeling , International Journal of Integrated Engineering, Vol. 7 No. 1 (2015) p. 12-20

Zhu, Y (2016) “Mechanisms of Property Changes of Soft Clays Around Deep Mixing Column, International Forum on Energy, Environment and Sustainable Development (IFEESD 2016)

File Tambahan

Diterbitkan

2021-07-26

Terbitan

Vol 20 No 1 (2021): Jurnal Teknik - Media Pengembangan Ilmu dan Aplikasi Teknik

Bagian

Hasil Riset

Lisensi

Hak Cipta (c) 2021 Agus Sulaeman, Muhamad Agung, Regi Fasya Septrian

Creative Commons License

Artikel ini berlisensiCreative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

Penulis yang menyerahkan artikel di Jurnal Teknik: Media Pengembangan dan Aplikasi Teknik untuk keperluan publikasi telah mengetahui bahwa Jurnal Teknik: Media Pengembangan dan Aplikasi Teknik memberikan akses terbuka terhadap konten untuk mendukung pertukaran informasi mengenai ilmu pengetahuan, sesuai dengan penerbitan daring yang berbasis Open Access Journal dan mengikuti Creative Commons Attribution 4.0 International License. Sehingga penulis setuju dengan ketentuan-ketentuan berikut:
1. Penulis memegang hak cipta dan memberikan hak publikasi pertama kepada pihak jurnal dengan pekerjaan secara bersamaan 
    di bawah Creative Commons Attribution 4.0 International License yang memungkinkan orang lain untuk berbagi pekerjaan 
    dengan pengakuan kepengarangan karya dan publikasi pertama artikel tersebut di Jurnal Teknik: Media Pengembangan dan 
    Aplikasi Teknik.
2. Penulis dapat melakukan perjanjian tambahan untuk hak distribusi non-eksklusif artikel yang telah diterbitkan di jurnal ini 
    (misalnya, posting ke sebuah repositori institusi atau menerbitkannya dalam sebuah buku), dengan mengakui bahwa
    publikasi pertama dilakukan di Jurnal Teknik: Media Pengembangan dan Aplikasi Teknik.
3. Penulis diizinkan dan didorong untuk menyebarkan karya mereka secara daring (misalnya, dalam repositori institusi atau 
    laman web penulis) setelah artikel terbit (proses penerbitan artikel selesai). Hal ini terkait dengan imbas dari pertukaran 
    informasi yang produktif (Lihat Pengaruh Open Access).

Cara Mengutip

The Effect of w/c Ratio of Compacted Bored Pile to Friction Resistance of Unjani Clay. (2021). Jurnal Teknik: Media Pengembangan Ilmu Dan Aplikasi Teknik, 20(1), 83-93. https://doi.org/10.26874/jt.vol20no1.409

Artikel Serupa

1-10 dari 52

Anda juga bisa Mulai pencarian similarity tingkat lanjut untuk artikel ini.