03-07-2012, 11:54 AM
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Journal of Geotechnical & Geoenvironmental Engineering
Ultimate Lateral Resistance of Pile Groups in Sand
Author: Patra, Nihar Ranjan, Pise, Prabhakar Jagannath | Size: 1.41 MB | Format: PDF | Quality: Scanner | Publisher: Journal of Geotechnical and Geoenvironmental Engineering Vol 127 No. 6 | Year: 2001 | pages: 481-487 | ISBN: 1090-0241, 1943-5606
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Abstract : Presents information on a study which investigated the resistance of model pile groups to lateral loads in Chennai, India. Methodology; Results and discussion.
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***************************************Evaluation of Pile Diameter Effect on Initial Modulus of Subgrade Reaction
Author: Ashford, Scott A., Juirnarongrit, Teerawut | Size: 145 KB | Format: PDF | Quality: Original preprint | Publisher: Journal of Geotechnical & Geoenvironmental Engineering Vol. 129 Issue 3 | Year: 2003 | pages: 234-244 | ISBN: 1090-0241, 1943-5606
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This paper presents the results of a study on the effect of pile diameter on the initial modulus of subgrade reaction. A series of ambient and impact vibration tests were performed on four different diameters of cast-in-drilled-hole piles to determine the natural frequencies and damping of the soil-pile systems. The measured natural frequencies were then compared with those estimated from a numerical model. The soil springs in the numerical model were established by implementing two different concepts on initial modulus of subgrade reaction. One is based on Terzaghi’s concept in which the modulus of subgrade reaction is independent of pile diameter. The other was based on recent research suggesting that the initial modulus of subgrade reaction may be linearly proportional to pile diameter. It was found that the measured natural frequencies were in good agreement with the computed ones when the diameter-independent modulus of subgrade reaction was employed. In addition, the test results show that the damping ratio of the system varied with pile diameter from 3% for 0.4-m pile to 25% for 1.2-m pile.
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***************************************Ultimate Lateral Resistance to Piles in Cohesionless Soils
Author: Zhang, Lianyang, Silva, Francisco, Grismala, Ralph | Size: 128 KB | Format: PDF | Quality: Original preprint | Publisher: Journal of Geotechnical & Geoenvironmental Engineering; Vol. 131 Issue 1 | Year: 2005 | pages: 78-83 | ISBN: 1090-0241, 1943-5606
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Several methods are available for predicting the ultimate lateral resistance to piles in cohesionless soils. However, these methods often produce significantly different ultimate resistance values. This makes it difficult for practicing engineers to effectively select the appropriate method when designing laterally loaded piles in cohesionless soils. By analyzing the lateral soil resistance distribution along the width of the pile and based on the test results of model rigid piles in cohesionless soils collected from the published literature, a simple method is proposed for calculating the ultimate lateral resistance (including frontal soil resistance and side shear resistance) to piles in cohesionless soils. The calculated ultimate lateral resistance from the proposed method agrees well with that obtained from centrifugal tests of flexible model piles. Predicting the lateral load capacity of laboratory and field rigid test piles in cohesionless soils using the proposed method also yields satisfactory results.
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