Paul J. Axtell scite author profile

Paul J. Axtell

5Publications

18Citation Statements Received

29Citation Statements Given

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Affiliations

University of Missouri, Fugro (Norway), Minnesota Department of Transportation

Publications

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Seismic deformation analysis of Tuttle Creek Dam

Stark

Beaty²,

Byrne

et al. 2012

Can. Geotech. J.

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To facilitate the design of seismic remediation for Tuttle Creek Dam in east central Kansas, a seismic finite difference analysis of the dam was performed using the software FLAC and the UBCSAND and UBCTOT soil constitutive models. The FLAC software has a key advantage because it can use calibrated site-specific constitutive models. Earlier deformation analyses using a hyperbolic constitutive model for the foundation fine-grained materials did not properly represent the modulus and strength reduction and predicted extremely large permanent deformations. Cyclic triaxial laboratory tests using high-quality samples and in situ vane shear tests were used to calibrate the FLAC constitutive model herein. The resulting FLAC analysis of the unremediated dam predicted an upstream slope toe deformation of about 0.6 m, a crest settlement of about 0.6 m, and a downstream slope toe deformation of about 1.5 m using the design ground motion. Based on the estimated permanent deformations and other factors, it was decided that the anticipated upstream slope and crest deformations were tolerable and only the downstream slope had to be remediated to protect the downstream seepage control system.

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Soil Inclusions in Jet Grout Columns

Stark

Axtell²,

Lewis

et al. 2009

DFI Journal - The Journal of the Deep Foundations Institute

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Case History: Foundations for the New Mississippi River Bridge, St. Louis

Axtell¹,

Brown²

2011

DFI Journal - The Journal of the Deep Foundations Institute

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This case history describes the foundation design and construction for the New Mississippi River Bridge, presently under construction in St. Louis, Missouri. The 1,500 ft (457.2 m) main span of the cable-stayed bridge is supported by two delta tower pylons in the river, with anchor piers on each bank. The final foundation design was completed as a part of an Alternate Technical Concept (ATC) proposal by the winning construction team, and utilized drilled shafts up to 11.5-ft (3.5-m) diameter that were socketed into very hard limestone. As part of the ATC foundation design, a full-scale, bidirectional static load test was performed to verify the design and allow use of higher resistance values. This paper presents the results of the site exploration, construction of the load test shaft, details of the load testing, and a comparison of the test results with various design parameters.

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In Situ Measurement of Small-Strain Stiffnesses in Soil Beneath a Footing with Varying Static Loads

Stokoe¹,

Axtell²,

Rathje³

et al. 2005

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Seismic Retrofit of Tuttle Creek Dam

Walberg¹,

Stark

Nicholson³

et al. 2013

J. Geotech. Geoenviron. Eng.

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Paul J. Axtell

Seismic deformation analysis of Tuttle Creek Dam

Soil Inclusions in Jet Grout Columns

Case History: Foundations for the New Mississippi River Bridge, St. Louis

In Situ Measurement of Small-Strain Stiffnesses in Soil Beneath a Footing with Varying Static Loads

Seismic Retrofit of Tuttle Creek Dam

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