Case studies to demonstrate challenges of driven piles on rock

Ng, Kam; Sullivan, Todd

doi:10.1680/jgere.16.00015

Geotechnical Research

2017

DOI: 10.1680/jgere.16.00015

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Case studies to demonstrate challenges of driven piles on rock

Kam Ng

Todd Sullivan

Abstract: 2In Wyoming, pile foundations for bridges are often driven on rock materials because of the state's shallow bedrock stratigraphy. Unfortunately, no static analysis methods are currently available for estimating the resistance of these driven piles. In this paper, two recently completed bridge projects (the Owl Creek and Woods Wardell sites) on steel H-piles in Wyoming are explicitly presented, and data from three past projects are included to highlight the limited knowledge and challenges pertaining to the pre… Show more

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Cited by 12 publications

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“…Pile resistances estimated using the signal-matching method from the CAse Pile Wave Analysis Program (CAPWAP) vary significantly with the resistances predicted using existing SA methods for driven piles in IGMs ( 3 ). Additionally, it has been observed that the pile resistances predicted for IGMs using current SA approaches vary from those found by dynamic load testing (DLT) ( 11 – 13 ). The prediction of pile resistances in soft rocks using twenty static pile load trials did not yield any applicable prediction equations, either ( 3 ).…”

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confidence: 93%

“…If IGM is treated as soil, construction concerns, such as early pile refusal and pile breakage, might occur because of a lack of suitable design approaches and static pile load test data ( 11 ). The results of an investigation by Ng and Sullivan on fifteen steel piles driven into IGMs in Wyoming revealed that the current SA techniques designed for soils produced inconsistent and conservative predictions of geotechnical resistances ( 12 ). Pile resistances estimated using the signal-matching method from the CAse Pile Wave Analysis Program (CAPWAP) vary significantly with the resistances predicted using existing SA methods for driven piles in IGMs ( 3 ).…”

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confidence: 99%

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Evaluation of Static Load Test Systems for Driven Piles in Intermediate GeoMaterials

Masud

Oluwatuyi

et al. 2023

Transportation Research Record: Journal of the Transportation R

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The driven pile designs in intermediate geomaterials (IGMs) entail relatively significant levels of uncertainty because of the transitional properties of IGMs between soil and hard rock. The performance and acceptability of driven piles in IGMs are typically evaluated using dynamic load test (DLT) approaches. Even though dynamic techniques have significant technological and financial advantages, a static pile load test (SLT) is required to comprehend the static behavior of driven piles in IGMs. This study presents three distinct SLT systems (independent, integrated, and innovative) that are performed on steel H-piles driven in IGMs in Iowa, Wyoming, and Colorado, respectively. Test pile 2 (TP2) is driven into siltstone in Wyoming, whereas test pile 1 (TP1) and test pile 3 (TP3) are driven into shale in Iowa and Colorado, respectively. DLTs are conducted using Wave Equation Analysis Program (WEAP) and Pile Driving Analyzer (PDA) with a signal-matching analysis utilizing the Case Pile Wave Analysis Program (CAPWAP). The ultimate pile resistances are evaluated using six distinct failure criteria. According to the Davisson criterion, TP1 has the ultimate pile resistance of 305 kips, which is 11% and 2% less than the CAPWAP and WEAP analyses, respectively. For TP2, ultimate pile resistances based on all SLT criteria are higher than that from the DLTs, except for the 5%B criterion with ultimate pile resistance at 7% lower than CAPWAP. It is evident from TP3 that the ultimate resistances acquired from SLTs are higher than the resistances obtained from dynamic analysis.

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confidence: 93%

mentioning

confidence: 99%

Evaluation of Static Load Test Systems for Driven Piles in Intermediate GeoMaterials

Masud

Oluwatuyi

et al. 2023

Transportation Research Record: Journal of the Transportation R

Self Cite

View full text Add to dashboard Cite

show abstract

“…In the next paper, Ng and Sullivan (2017) studied the common practice in Wyoming, USA where steel H-piles are driven to penetrate rock materials. Current static analysis methods, originally developed for soil, provided inconsistent and potentially conservative geotechnical resistance estimations for a driven pile on soft rocks.…”

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confidence: 99%

Editorial

Ong

Wanatowski

2017

Geotechnical Research

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. The theme of the conference was 'Deep excavation and ground improvement'. There were 179 papers presented to an approximate audience of more than 500. In view of it being an important regional conference, some of the authors of the papers were invited to contribute fulllength articles to Geotechnical Research because their topics were of interest and relevance to the objectives of the journal. These articles are extended versions with new material and have been through rigorous peer review before being accepted for publication. We hope readers will find this issue interesting and useful for their research and engineering careers in academia and/or geotechnical industry.The first paper, by , describes the procedure in carrying out the design of vertically loaded piles considering the pile set-up phenomenon in cohesive soils, drawing experiences from 32 documented local case histories with detailed information on the hammer used, pile driving process, pile properties and subsurface information for wave equation analysis programme (WEAP) analyses and load and resistance factor design (LRFD) resistance factor calibration. To aid with LRFD design of driven piles, 12 step-by-step design examples were created. These examples were presented in three different tracks considering four pile types, three soil categories and four special design considerations. The design guide and examples were developed specifically for a region but its commendable concept and advantages could be emulated for other regions.In the next paper, Ng and Sullivan (2017) studied the common practice in Wyoming, USA where steel H-piles are driven to penetrate rock materials. Current static analysis methods, originally developed for soil, provided inconsistent and potentially conservative geotechnical resistance estimations for a driven pile on soft rocks. Hence, this study highlights the importance of establishing methods to distinguish rock materials for driven pile design and construction as well as of developing methods to predict better the resistances of piles driven on soft rocks.In the paper by Choo and Ong (2017) a novel method was developed by the authors to derive equivalent rock strength characteristics based on the interpretation of results obtained from direct shear testing of reconstituted tunnelling rock spoils. The established theories on power law and the generalised tangential approach were successfully used to capture the nonlinear behaviour of the reconstituted sheared rock samples. By applying the interpreted strength parameters to four pipe-jacking drives in varying geology, it was found that geology had significant effects on lubricant use and arching around the tunnel, thus affecting the accrued jacking forces in each drive. The applicability of the interpreted parameters to the back-analysed jacking forces was also validated through the use of three-dimensional finiteelement modelling. This research contribution could lead to the development of a predictive jacking force model for drives in soft and highly fractured rock f...

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Reliability-based design improvement and prediction of steel driven pile resistances in rock-based intermediate geomaterials

Masud

Kalauni

et al. 2023

Acta Geotech.

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Case studies to demonstrate challenges of driven piles on rock

Cited by 12 publications

References 6 publications

Evaluation of Static Load Test Systems for Driven Piles in Intermediate GeoMaterials

Evaluation of Static Load Test Systems for Driven Piles in Intermediate GeoMaterials

Editorial

Reliability-based design improvement and prediction of steel driven pile resistances in rock-based intermediate geomaterials

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