Top

Geotechnical and Geological Engineering

Published in:

20-02-2017 | Original paper

Response of Pile Groups Driven in Sand Subjected to Combined Loads

Authors: Yoon Seok Choi, Jintae Lee, Monica Prezzi, Rodrigo Salgado

Published in: Geotechnical and Geological Engineering | Issue 4/2017

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

Although the loads applied on piles are usually a combination of both vertical and lateral loads, very limited experimental research has been done on the response of pile groups subjected to combined loads. Due to pile–soil–pile interaction in pile groups, the response of a pile group may differ substantially from that of a single pile. This difference depends on soil state and pile spacing. This paper presents results of experiments designed to investigate pile interaction effects on the response of pile groups subjected to both axial and lateral loads. The experiments were load tests performed on model pile groups (2 × 2 pile groups) in calibration chamber sand samples. The model piles were driven into the sand samples prepared with different relative densities using a sand pluviator. The combined load tests were performed on the model pile groups subjected to different axial load levels, i.e., 0 (pure lateral loading), 25, 50, and 75% of the ultimate axial load capacity of the pile groups, defined as the load corresponding to a settlement of 10% of the model pile diameter. The combined load test results showed that the bending moment and lateral deflection at the head of the piles increased substantially for tests performed in the presence of axial loads, suggesting that the presence of axial loads on groups of piles driven in sand is detrimental to their lateral capacity.

previous article Water Content Ratio: An Effective Substitute for Liquidity Index for Prediction of Shear Strength of Clays

next article Investigation into Relationships Between Cerchar Hardness Index and Some Mechanical Properties of Coal Measure Rocks

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

Alawneh AS, Malkawi AIH, Al-Deeky H (1999) Tension tests on smooth and rough model piles in dry sand. Can Geotech J 36:746–753CrossRef

American Petroleum Institute, API (2007) Recommended practice for planning, designing, and constructing fixed offshore platforms—working stress design, API RP2A, 22nd edn. Washington

Anagnostopoulos C, Georgiadis M (1993) Interaction of axial and lateral pile responses. J Geotech Eng ASCE 119(4):793–798CrossRef

Bartolomey AA (1977) Experimental analysis of pile groups under lateral loads. In: 9th International conference on soil mechanics and foundation engineering, pp 187–188

Beatty CI (1970) Lateral test on pile groups. Found Facts 6(1):18–21

Been K, Crooks JHA, Becker DE, Jefferies MG (1986) The cone penetration test in sands: part I, state parameter interpretation. Geotechnique 36(2):239–249CrossRef

Been K, Lingnau BE, Crooks JHA, Leach B (1987) Cone penetration test calibration for Erksak (Beaufort Sea) sand. Can Geotech J 24:601–610CrossRef

Bellotti R, Bizzi G, Ghionna V, Jamiolkowski M (1979) Preliminary calibration tests of electrical cone and flat dilatometer in sand. In: Proceeding of the 7th European conference on soil mechanics and foundation engineering, vol 2, Brighton, pp 195–200

Bellotti R, Bizzi G, Ghionna V (1982) Design, construction and use of a calibration chamber. In: Proceeding of the second European symposium on penetration testing, vol 2, Amsterdam, pp 439–446

Brandon TL, Clough GW (1991) Methods of sample fabrication in the Virginia tech calibration chamber. In: Proceedings of the first international symposium on calibration chamber testing, New York, pp 119–133

Brown DA, Morrison C, Reese LC (1988) Lateral load behavior of pile group in sand. J Geotech Eng ASCE 114(11):1261–1276CrossRef

Chapman GA, Donald IB (1981) Interpretation of static penetration tests in sand. In: Proceedings of the 10th international conference on soil mechanics and foundation engineering, vol 2, Stockholm, pp 455–458

Chaudhuri KPR, Symons MV (1983) Uplift resistance of model single piles. In: Proceeding of the conference on geotechnical practice in offshore engineering, ASCE, Austin, pp 335–355

Chong MK (1988) Density changes of sand on cone penetration resistance. In: Proceedings of the 1st international symposium on penetration testing, Orlando, pp 707–714

Davisson MT, Robinson KE (1965) Bending and buckling of partially embedded piles. In: 6th International conference on soil mechanics and foundation engineering, vol 2, pp 243–246

Fayyazi MS (2015) Numerical study on the response of pile groups under lateral loading, Ph.D. Thesis. The University of British Columbia (Vancouver)

Fioravante V, Jamiolkowski M, Tanizawa F, Tatsuoka F (1991) Results of CPT’s in Toyora quartz sand. In: Proceedings of the 1st international symposium on calibration chamber testing, New York, pp 135–146

Foray P (1991) Scale and boundary effects on calibration chamber pile tests. In: Proceedings of the first international symposium on calibration chamber testing, New York, pp 147–160

Gandhi SR, Selvam S (1997) Group effect on driven piles under lateral load. J Geotech Geoenviron Eng ASCE 123(8):702–709CrossRef

Gavin KG, Lehane BM (2003) The shaft capacity of pipe piles in sand. Can Geotech J 40:36–45CrossRef

Goryunov BF (1973) Analysis of piles subjected to the combined action of vertical and horizontal loads. Soil Mech Found Eng 10:10–13CrossRef

Holden JC (1976) The determination of deformation and shear strength parameters for sands using the electrical friction-cone penetrometer, Report 110, Norwegian Geotechnical Institute, Oslo, pp 55–60

Houlsby GT, Hitchman R (1988) Calibration chamber tests of a cone penetrometer in sand. Geotechnique 38(1):39–44CrossRef

Huntsman SR, Mitchell JK, Klejbuk LW, Shinde SB (1986) Lateral stress measurement during cone penetration. In: Use of in-situ tests in geotechnical engineering: proceedings of in situ’86, a specialty conference. ASCE, New York, pp 617–634

Iskander MG (1995) An experimental facility to model the behavior of steel pipe piles in sand, Ph.D. Thesis. The University of Texas at Austin

Iskander MG (2011) Behavior of pipe piles in sand—plugging and pore water pressure generating during installation and loading. Springer, Berlin

Iwasaki K, Tanizawa F, Zhou S, Tatsuoka F (1988) Cone resistance and liquefaction strength of sand. In: Proceedings of the 1st international symposium on penetration testing, Orlando, pp 785–791

Jain NK, Ranjan G, Ramasamy G (1987) Effect of vertical load on flexural behavior of piles. Geotech Eng 18:185–204

Karthigeyan S, Ramakrishna VVGST, Rajagopal K (2006) Influence of vertical load on the lateral response of piles in sand. Comput Geotech 33:121–131CrossRef

Karthigeyan S, Ramakrishna VVGST, Rajagopal K (2007) Numerical investigation of the effect of vertical load on the lateral response of piles. J Geotech Geoenviron Eng 133(5):512–521CrossRef

Klein GK, Karavaev VN (1979) Design of reinforced-concrete piles for vertical and horizontal loading. J Soil Mech Found Eng 6:13–15

Liang F, Chen H, Chen S (2012) Influence of axial load on the lateral response of single pile with integral equation method. Int J Numer Anal Method Geomech 36:1831–1845CrossRef

Lieng JT (1989) A model for group behavior of laterally loaded piles. In: Offshore technology conference, Houston, pp 377–394

Lo Presti DCF, Pedroni S, Crippa V (1992) Maximum dry density of cohesionless soils by pluviation and by ASTM D4253-83: a comparative study. Geotech Test J 15(2):180–189CrossRef

Loukidis D, Salgado R (2009) Modeling sand response using two-surface plasticity. Comput Geotech 36(1):166–186CrossRef

Madhav MR, Sarma CPK (1982) Analysis of axially and laterally loaded long pile. In: Proceedings of the 2nd international conference on numerical methods in offshore piling, Austin, pp 577–596

McVay M, Casper R, Shang TI (1995) Lateral response of three-row groups in loose to dense sands at 3D and 5D pile spacing. J Geotech Eng ASCE 121(5):436–441CrossRef

McVay M, Zhang L, Molnit T, Lai P (1998) Centrifuge testing of large laterally loaded pile groups in sands. J Geotech Geoenviron Eng ASCE 124(10):1016–1026CrossRef

Meera RS, Shanker K, Basudhar PK (2007) Flexural response of piles under liquefied soil conditions. Geotech Geol Eng 25(4):409–422CrossRef

Morrison C, Reese LC (1986) A lateral-load test of full-scale pile group in sand, GR86-1, FHWA, Washington

Murthy TG, Loukidis D, Carraro JAH, Prezzi M, Salgado R (2007) Undrained monotonic response of clean and silty sands. Geotechnique 57(3):273–288CrossRef

O’Neill MW, Raines RD (1991) Load transfer for pipe piles in highly pressured dense sand. J Geotech Eng ASCE 117(8):1208–1226CrossRef

Paik K, Salgado R (2004) Effect of pile installation method on pipe pile behavior in sands. Geotech Test J ASTM 27(1):1–11CrossRef

Parkin AK (1991) Chamber testing of piles in calcareous sand and silt. In: Proceedings of the 1st international symposium on calibration chamber testing, New York, pp 289–302

Parkin AK, Lunne T (1982) Boundary effects in the laboratory calibration of a cone penetration for sand. In: Proceeding of the second European symposium on penetration testing, Netherlands National Society for Soil Mechanics & Foundation Engineering (NNSSMFE), pp 761–768

Parkin AK, Holden J, Aamot K, Last N, Lunne T (1980) Laboratory investigations of CPT’s in sand, Report 52108-9, NGI, Oslo

Peterson RW (1988) Laboratory investigation of the penetration resistance of fine cohesionless materials, Penetraion Testing, ISOPT-1, pp 895–901

Pise PJ (1975) Investigations on laterally loaded pile groups. In: Symposium on recent developments in the analysis of soil behavior and their application to geotechnical structures, pp 129–144

Puppala AJ, Acar YB, Tumay MT (1991) Miniature CPT tests in dense monterey No. 0/30 sand in a flexible double-walled calibration chamber. In: Proceedings of the 1st international symposium on calibration chamber testing, New York, pp 339–350

Rad NS, Tumay MT (1987) Factors affecting sand specimen preparation by raining. Geotech Test J 10(1):31–37CrossRef

Reddy K, Ayothiraman R (2015) Experimental studies on behavior of single pile under combined uplift and lateral loading. J Geotech Geoenviron Eng ASCE 141(7):1–10

Reddy A, Ramasamy G (1973) Analysis of an axially and laterally loaded tapered pile in sand. Soils Found JSSMFE 13(4):15–27CrossRef

Rollins KM, Peterson KT, Weaver TJ (1998) Lateral load behavior of full-scale pile group in clay. J Geotech Geoenviron Eng ASCE 124(6):468–478CrossRef

Rollins KM, Lane JD, Gerber TM (2005) Measured and computed lateral response of a pile group in sand. J Geotech Geoenviron Eng ASCE 131(1):103–114CrossRef

Ruesta PF, Townsend FC (1997) Evaluation of laterally loaded pile group at Roosevelt Bridge. J Geotech Geoenviron Eng ASCE 123(12):1153–1161CrossRef

Salgado R (2012) The mechanics of cone penetration: contributions from experimental and theoretical studies. In: Keynote lecture, Geotechnical and Geophysical Site Characterization 4 (ISC-4), Pernambuco

Salgado R, Mitchell JK, Jamiolkowski M (1998) Calibration chamber size effects on penetration resistance in sand. J Geotech Geoenviron Eng ASCE 124(9):878–888CrossRef

Schnaid F, Houlsby GT (1991) An assessment of chamber size effects in the calibration of in situ tests in sand. Geotechnique 41(3):437–445CrossRef

Skirrow R, Wang R (2008) Cost-benefit analysis for selection of pile tests. In: GeoEdmonton’08, pp 20–26

Smits FP (1982) Cone penetration tests in dry sand. In: Proceedings of the 2nd European symposium on penetration testing, Amsterdam, pp 877–881

Sorochan EA, Bykov VI (1976) Performance of groups of cast-in place piles subjected to horizontal loading. Soil Mech Found Eng 3:157–161CrossRef

Stewart D (2000) User manual for PYGMY version 2.31, p–y analysis of laterally loaded piles under general loading. Department of Civil and Resource Engineering, The University of Western Australia, pp 1–64

Sweeney, B.P. (1987). “Liquefaction Evaluation Using a Miniature Cone Penetrometer and Large Scale Calibration Chamber”, Ph.D. Thesis, Stanford University

Turner JP, Kulhawy FH (1994) Physical modelling of drilled shaft side resistance in sand. Geotech Test J 17(3):282–290CrossRef

Valsangkar AJ, Rao NSVK, Basudhar PK (1973) Generalized solutions of axially and laterally loaded piles in elasto-plastic soil. Soils Found JSSMFE 13(4):1–14CrossRef

Vipulanandan C, Wong D, Ochoa M, O’Nill MW (1989) Modelling of displacement piles in sand using a pressure chamber. In: Foundation engineering proceedings congress, ASCE, pp 526–541

Zhang LM, McVay MC, Han SJ, Lai PW, Gardner R (2002) Effects of dead loads on the lateral response of battered pile groups. Can Geotech J 39(3):561–575CrossRef

Title: Response of Pile Groups Driven in Sand Subjected to Combined Loads
Authors: Yoon Seok Choi
Jintae Lee
Monica Prezzi
Rodrigo Salgado
Publication date: 20-02-2017
Publisher: Springer International Publishing
Published in: Geotechnical and Geological Engineering / Issue 4/2017
Print ISSN: 0960-3182
Electronic ISSN: 1573-1529
DOI: https://doi.org/10.1007/s10706-017-0194-z

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Other articles of this Issue 4/2017

Dynamic Analysis of Tunnel in Soil Subjected to Internal Blast Loading

Shake Table Tests and Numerical Modeling of Liquefaction of Kasai River Sand

Soil–Pile Interaction Analysis Using Multi-laminate Elasto-Plastic Modelling

Anisotropy of Rock Profile JRC Values and Its Empirical Formula: A Case Study on Yellow Rust Granite

Geotechnical Assessment of Crushed Shales from Selected Locations in Nigeria as Materials for Landfill Liners

Experimental and numerical evaluation of single-layer covers placed on acid-generating tailings