NTL Record

Title Velocity Variations in Cross-Hole Sonic Logging Surveys Causes and Impacts in Drilled Shafts
Record ID 75267
Personal Name
Creator
Rock, Alan; Zhang, Runing; Wilkinson, David
Personal Name
Contributor
Haramy, Khamis Y.; Peabody, Michael; Surdahl, R.; Greer, Matt; Jalinoos, Frank
Corporate Creator United States. Department of Transportation. Federal Highway Administration. Central Federal Lands Highway Division
Publisher United States. Department of Transportation. Federal Highway Administration
Publication Date 20080901
Language English
Abstract Drilled shafts are popular deep foundation supports, as they can be constructed in a wider range of ground conditions with less noise and vibration than driven piles. Quality assurance and quality control of drilled shafts has become a concern due to difficulties in locating defects and determining load bearing capacity. Various non-destructive evaluation (NDE) techniques have been developed to estimate the integrity of the concrete. While NDE techniques provide a powerful tool and have been widely accepted, many variables and unknowns can affect the measurement results. Results are more difficult to interpret, leading to unnecessary litigation over shaft integrity. In addition, influences of surrounding ground, stress states under different load conditions, and crack development during concrete curing further complicate determination of shaft performance. This study identifies various conditions that affect the load bearing capacity of drilled shafts by modeling various conditions and analyzing them with numerical methods. The analysis first identifies design criteria and construction procedures, and reviews NDE techniques. This analysis uses results based on principles and theorems from engineering mechanics, geotechnical engineering, concrete chemistry, and geophysical engineering, which are analyzed numerically by the Geostructural Analysis Package (GAP.) GAP combines numerical methods of Discrete Element Method, Particle Flow Method, Material Point Method, and Finite Differencing, together with engineering mechanics constitutive models, concrete chemistry models, thermodynamics models, and geophysical tomography and holography for geotechnical engineering application. GAP has also been used successfully for ground characterization in highway engineering and mining operations. This study explores many concerns recently raised for drilled shaft design, construction and maintenance. Conclusions and recommendations offer engineers more information for a better understanding of drilled shaft foundations to revolutionize foundation design, concrete mix design, construction techniques, NDE measurement, and defect evaluation, to improve performance and efficiency.
Public Note COTR: Khamis Haramy, FHWA-CFLHD. Advisory Panel Members: Michael Peabody and Roger Surdahl, FHWA-CFLHD; Matt Greer, FHWA-CO Division. and Frank Jalinoos, FHWA-TFHRC. This project was funded under the FHWA Federal Lands Highway Technology Deployment Initiatives and Partnership Program (TDIPP).
Rosap ID dot:50024
Rosap URL https://rosap.ntl.bts.gov/view/dot/50024
TRT Terms Geophysical prospecting; Tomography; Velocity; Pile foundations; Crossheadings; Quality assurance; Quality control; Nondestructive tests; Sonic tests
General Subjects Cross-hole sonic logging; CSL; Drilled shafts; Deep foundation; Geophysical survey; Tomography; Velocity; Anomalies
Geographical
Coverage
United States
TRIS Online
Accession No
1752463
Contract Number DTFH68-05-P-00056; DTFH68-05-P-00089; DTFH68-06-P-00105
Report Number FHWA-CFL-TD-08-009
Resource type Tech Report
URL https://ntlrepository.blob.core.windows.net/lib/75000/75200/75267/FHWA-CFL-TD-08-009.pdf
Format PDF
Database NTL Digital Repository