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2024 | OriginalPaper | Chapter

Sand Compaction Pile Method Utilizing Recycled Materials

Authors : Hiroshi Yabe, Hidekatsu Takeuchi, Futoshi Ogata, Kenji Harada

Published in: Sustainable Construction Resources in Geotechnical Engineering

Publisher: Springer Nature Singapore

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Abstract

The Sand Compaction Pile (SCP) method is a technique of constructing well-compacted sand piles in the ground by repeatedly penetrating casing pipe with infilling material, pulling them out, and re-driving them into the ground. Sand and gravel are usually used as the infilling material for this SCP method, but even for liquefaction countermeasures, materials with the fines content of 5–15% are generally used. However, in recent years, it has become difficult to secure good quality materials (especially natural sand materials) that satisfy these conditions, and the use of recycled materials (recycled crushed stone and slag) has increased. This paper describes the history and transition of the use of SCP infilling materials as recycled materials and introduces a model test (shaking table test) conducted using infilling materials with some amount of fines and an actual case study (field test) of using recycled materials, and discusses the results of the tests.

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previous chapter Recycled Sands from Demolition Wastes as a Natural Sand Substitute Material in Pavement Construction

next chapter Some Insight into Effects of Primary Curing Conditions on the Strength Development of Soils Treated with Paper Sludge Ash-Based Stabilizer

Japanese Geotechnical Society (1988) Soil and foundation series for field engineers 16 countermeasures for soft ground—from design survey to construction. pp 121

Ministry of the Environment (2019) White Paper on the Environment, pp 3–28. https://www.eNv.go.jp/policy/hakusyo/. Accessed 30 Jun 2020

Tsuboi H, Harada K, Matsui T (2000) Applicability and evaluation of recycled materials as infilling materials in compaction method. Geotech Eng Magaz 48(6):5–8

Yabe H, Takeuchi H, Imai Y (2017) Sand compaction pile method by effective utilization of generated soil. Geotech Eng Mag 65(9):16–17

Obayashi J, Harada K, Murakami E, Suzuki R (2015) History and new technology of sand compaction pile method. Geotech Eng Mag 63(8):16–19

Ezoe A, Harada K, Ohbayashi J, Otani J (2017) Application technology of granule body as infilling material for ground improvement. In: 2nd International Conference on Bio-based Building Materials & 1st Conference on ECOlogical valorisation of GRAnular and FIbrous materials, pp 15–19

Nishizuka N (1995) Utilization of oyster shells in SCP method—oyster shells reborn. Civil Eng Technol 50(2):59–63

National Land Development Technology Center (1999) Ri-soil method (ground improvement method using soil generated on site). report of technical review and certification for general civil engineering methods, pp 21–66

Coastal Development Technology Center (2003) Technical review and certification report flash soil system (environmental load reduction system using high water content soil), pp 1–24

10.

Public Works Research Institute of Japan (2004) Construction technology review and certification report “TAFDEX”, material for compaction method with expansion and solidification performance, pp 2–76

11.

Hirashima Y, Shinozaki H (2016) Outline and application of hydraulic slag compaction pile (Eco-Gaia-Stone). Found Eng Mag 4:56–59

12.

Tomita A, Harada K, Yabe H, Koseki J (2022) Shaking table test of horizontal ground model simulating construction process of compacted sand piles—effect of infilling materials on improvement effectiveness. In: 15th Ground Improvement Symposium, 15-06

13.

Ogata T, Hashimoto N, Ito T, Takeuchi H, Yabe H (2020) Approach to sand compaction pile method using recycled materials. In: 14th Ground Improvement Symposium, pp 143–148

14.

Japanese Geotechnical Society (2004) Countermeasures for liquefaction, Chapter 1: density increasing method, pp 243

Title: Sand Compaction Pile Method Utilizing Recycled Materials
Authors: Hiroshi Yabe
Hidekatsu Takeuchi
Futoshi Ogata
Kenji Harada
Publisher: Springer Nature Singapore
Book: Sustainable Construction Resources in Geotechnical Engineering
Print ISBN: 978-981-9992-26-3

Electronic ISBN: 978-981-9992-27-0

Copyright Year: 2024
DOI: https://doi.org/10.1007/978-981-99-9227-0_25

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