Reduction Factor for the Unloading Point Method at Clay Soil Sites

Full-scale testing can be an integral component of quality control/quality assurance for projects involving construction of deep foundations. Rapid load tests are being used in the deep foundation industry as a method for assessing the axial static behavior of deep foundations. Since rapid load test...

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Published in	Journal of geotechnical and geoenvironmental engineering Vol. 136; no. 4; pp. 643 - 646
Main Authors	Weaver, Thomas J, Rollins, Kyle M
Format	Journal Article
Language	English
Published	Reston, VA American Society of Civil Engineers 01.04.2010
Subjects	Applied sciences Buildings. Public works Earthwork. Foundations. Retaining walls Exact sciences and technology Geotechnics Soil investigations. Testing TECHNICAL NOTES Clay Pile foundations Load Statnamic Full-scale tests Site analysis Clay soil Rate effects Full scale mockup test Deep foundations Rapid Fundex Load tests Clays Unloading point method Foundations Reduction Test Pile Foundation Loading test(mechanics)
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Abstract	Full-scale testing can be an integral component of quality control/quality assurance for projects involving construction of deep foundations. Rapid load tests are being used in the deep foundation industry as a method for assessing the axial static behavior of deep foundations. Since rapid load tests involve dynamics, inertial and damping forces must be considered in analyzing measured pile response to estimate the static pile response. The unloading point method (UPM) is typically used for this purpose. Generally considered a consequence of load rate effects in clays, results from the UPM must be further modified by a reduction factor to obtain a reasonable estimate of the static pile response. A reduction factor of 0.65 applied to the UPM for clay soil sites has been recommended by others. However, a review and analysis of readily available literature reporting static and rapid pile load test results at sites predominantly consisting of clay soils indicate that an average reduction factor of 0.47 is more appropriate. Rapid load testing should be used judiciously. When using the UPM to estimate static pile capacity from rapid load tests in clay, static load tests should be performed to validate the reduction factor used to interpret rapid load tests.
AbstractList	Full-scale testing can be an integral component of quality control/quality assurance for projects involving construction of deep foundations. Rapid load tests are being used in the deep foundation industry as a method for assessing the axial static behavior of deep foundations. Since rapid load tests involve dynamics, inertial and damping forces must be considered in analyzing measured pile response to estimate the static pile response. The unloading point method (UPM) is typically used for this purpose. Generally considered a consequence of load rate effects in clays, results from the UPM must be further modified by a reduction factor to obtain a reasonable estimate of the static pile response. A reduction factor of 0.65 applied to the UPM for clay soil sites has been recommended by others. However, a review and analysis of readily available literature reporting static and rapid pile load test results at sites predominantly consisting of clay soils indicate that an average reduction factor of 0.47 is more appropriate. Rapid load testing should be used judiciously. When using the UPM to estimate static pile capacity from rapid load tests in clay, static load tests should be performed to validate the reduction factor used to interpret rapid load tests.
Author	Weaver, Thomas J Rollins, Kyle M
Author_xml	– sequence: 1 givenname: Thomas J surname: Weaver fullname: Weaver, Thomas J email: tweaver@uidaho.edu organization: Univ. of Idaho , Dept. of Civil Engineering, , Moscow, ID 83844-1022 (corresponding author). E-mail – sequence: 2 givenname: Kyle M surname: Rollins fullname: Rollins, Kyle M email: rollinsk@byu.edu organization: Brigham Young Univ. , Dept. of Civil and Environmental Engineering, , Provo, UT 84602. E-mail
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Cites_doi	10.1680/geot.2006.56.9.627 10.1139/T07-115 10.1061/(ASCE)1090-0241(2000)126:7(640) 10.1061/(ASCE)1090-0241(2001)127:12(1081) 10.1201/9781003078715-10 10.1201/9780203882870.ch19
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Keywords	Clay Pile foundations Load Statnamic Full-scale tests Site analysis Clay soil Rate effects Full scale mockup test Deep foundations Rapid Fundex Load tests Clays Unloading point method Foundations Reduction Test Pile Foundation Loading test(mechanics)
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SubjectTerms	Applied sciences Buildings. Public works Earthwork. Foundations. Retaining walls Exact sciences and technology Geotechnics Soil investigations. Testing TECHNICAL NOTES
Title	Reduction Factor for the Unloading Point Method at Clay Soil Sites
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