The Influence of High Plasticity and Expansive Clay Stabilization with Limestone on Unconfined Compression Strength
Soewignjo Agus Nugroho(1*), Gunawan Wibisono(2), Andarsin Ongko(3), Avrilly Zesthree Mauliza(4)
(1) Department of Civil Engineering, Universitas Riau, Pekanbaru, INDONESIA
(2) Department of Civil Engineering, Universitas Riau, Pekanbaru, INDONESIA
(3) Department of Civil Engineering, Universitas Riau, Pekanbaru, INDONESIA
(4) Department of Civil Engineering, Universitas Riau, Pekanbaru, INDONESIA
(*) Corresponding Author
Abstract
Keywords
Full Text:
PDFReferences
Aldaood, A., Bouasker, M., and Al-Mukhtar, M., 2014a. Free swell potential of lime-treated gypseous soil. Applied Clay Science, 102, 93–103.
Aldaood, A., Bouasker, M., and Al-Mukhtar, M., 2014b. Impact of freeze–thaw cycles on mechanical behaviour of lime stabilized gypseous soils. Cold Regions Science and Technology, 99, 38–45.
Ali, H., and Mohamed, M., 2017. The effects of compaction delay and environmental temperature on the mechanical and hydraulic properties of lime-stabilized extremely high plastic clays. Applied Clay Science, 150, 333–341.
Balaji, S., Wadhave, M. D., Waghe, A. P., Rathod, D. C., and Razvi, S. S., 2018. Soil stabilization by using lime. International Journal of Engineering and Management Research, 8(02).
Beetham, P., Dijkstra, T., Dixon, N., Fleming, P., Hutchison, R., and Bateman, J., 2015. Lime stabilisation for earthworks: A UK perspective. In Proceedings of the Institution of Civil Engineers: Ground Improvement (Vol. 168, pp. 81–95).
Bell, F. G., 1996. Lime stabilization of clay minerals and soils. Engineering Geology, 42(4), 223–237.
Bessaim, M. M., Bessaim, A., Missoum, H., and Bendani, K., 2018. Effect of quick lime on physicochemical properties of clay soil. MATEC Web of Conferences, 149, 1–5.
Cheng, Y., Wang, S., Li, J., Huang, X., Li, C., and Wu, J., 2018. Engineering and mineralogical properties of stabilized expansive soil compositing lime and natural pozzolans. Construction and Building Materials, 187, 1031–1038.
Devi, C. R., Surendhar, S., Kumar, P. V., and Sivaraja, M., 2018. Bottom Ash as an Additive Material for Stabilization of Expansive Soil, 4(2), 174–180.
Eades, J. L., and Grim, R. E., 1966. A quick test to determine lime requirements for lime stabilization. Highway Research Record, (139).
Garzón, E., Cano, M., O`Kelly, B. C., and Sánchez-Soto, P. J., 2016. Effect of lime on stabilization of phyllite clays. Applied Clay Science, 123, 329–334.
Gilazghi, S. T., Huang, J., Rezaeimalek, S., and Bin-Shafique, S., 2016. Stabilizing sulfate-rich high plasticity clay with moisture activated polymerization. Engineering Geology, 211, 171–178.
Guyer, J. P., 2011. Introduction to soil stabilization in pavements. Retrieved from http://www.cedengineering.com/upload/Intro to Soil Stabilization for Pavements.pdf
Guyer, J. P., Asce, F., and Aei, F., 2011. Introduction to soil stabilization in pavements. New York.
Hardiyatmo, H. C., 2010. Stabilisasi tanah untuk perkerasan jalan. UGM Press. Yogyakarta.
Hotineanu, A., Bouasker, M., Aldaood, A., and Al-Mukhtar, M., 2015. Effect of freeze–thaw cycling on the mechanical properties of lime-stabilized expansive clays. Cold Regions Science and Technology, 119, 151–157.
Jadhav, G., 2016. Establishing relationship between coefficient of consolidation and index properties/indices of remoulded soil samples. In 5th international conference on recent trends in engineering science and management, Parvatibai Genba College of Engineering, Wagholi, Pune (pp. 1109–1119).
Kezdi, A., 1979. Stabilized Earth Roads. Elsevier. Hungary.
Langdon, D., 2009. Spon’s civil engineering and highway works price book 2010. CRC Press.
Leroueil, S., and Le Bihan, J.-P. 1996. Liquid limits and fall cones. Canadian Geotechnical Journal, 33(5), 793–798.
McCarthy, M. J., Csetenyi, L. J., Sachdeva, A., and Dhir, R. K., 2014. Engineering and durability properties of fly ash treated lime-stabilised sulphate-bearing soils. Engineering Geology, 174, 139–148.
Muntohar, A. S., Widianti, A., Hartono, E., and Diana, W., 2013. Engineering properties of silty soil stabilized with lime and rice husk ash and reinforced with waste plastic fiber, 25(September), 1260–1270.
Notman, C. F., 2011. Durability testing of fine grained stabilised soils. University of Nottingham, Nottingham, UK. Retrieved from http://eprints.nottingham.ac.uk/id/eprint/12060
Nugroho, S. A., 2012. Riau peat stabilsation using mix non-organic soil and cement as road fills. Dinamika Teknik Sipil, 12(2), 151–156.
Nugroho, S. A., Ningrum, P., and Muhardi., 2020. Pemanfaatan geopolimer abu terbang sebagai pozzolanic tanah lempung untuk material tanah dasar perkerasan. Jurnal Fondasi, 9(1), 77–86.
Wardani, S. P. R., 2008. Pemanfaatan limbah batubara (fly ash) untuk stabilisasi tanah maupun keperluan teknik sipil lainnya dalam mengurangi pencemaran lingkungan. Pidato Pengukuhan Guru Besar, 1–71.
Wibisono, G., Agus Nugroho, S., and Umam, K., 2018. The influence of sand’s gradation and clay content of direct sheart test on clayey sand. In IOP Conference Series: Materials Science and Engineering (Vol. 316, pp. 1–8).
Wilkinson, A., Haque, A., and Kodikara, J., 2010. Stabilisation of clayey soils with industrial by-products: part A. Proceedings of the Institution of Civil Engineers-Ground Improvement, 163(3), 149–163.
DOI: https://doi.org/10.22146/jcef.59438
Article Metrics
Abstract views : 2783 | views : 4680Refbacks
- There are currently no refbacks.
Copyright (c) 2022 The Author(s)
The content of this website is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
ISSN 5249-5925 (online) | ISSN 2581-1037 (print)
Jl. Grafika No.2 Kampus UGM, Yogyakarta 55281
Email : jcef.ft@ugm.ac.id
JCEF Stats