Using X-Ray Fluorescence to Assess Soil Subgrade Stabilization Competency During Construction Inspection

Cerato, Amy B.; Miller, Gerald A.; Salimi, Kwestan; University of Oklahoma. School of Civil Engineering and Environmental Science

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Using X-Ray Fluorescence to Assess Soil Subgrade Stabilization Competency During Construction Inspection

2022-04-01
By Cerato, Amy B. ; Miller, Gerald A. ; Salimi, Kwestan

[PDF-1.69 MB]

English

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Creators:

Cerato, Amy B. ; Miller, Gerald A. ; Salimi, Kwestan

Cerato, Amy B. ; Miller, Gerald A. ; Salimi, Kwestan Less -
Corporate Creators:

University of Oklahoma. School of Civil Engineering and Environmental Science
Corporate Contributors:

Oklahoma. Department of Transportation. Office of Research and Implementation ; United States. Department of Transportation. Federal Highway Administration

Oklahoma. Department of Transportation. Office of Research and Implementation ; United States. Department of Transportation. Federal Highway Administration Less -
Subject/TRT Terms:

[+]

Calcium Oxide Construction Inspection Soil Stabilization Sulfates X Ray Fluorescence
Publication/ Report Number:

FHWA-OK-22-05
Resource Type:

Tech Report
Geographical Coverage:

Oklahoma ; United States

Oklahoma ; United States Less -
Edition:

Final Report, Oct 2019 - Dec 2021
Corporate Publisher:

Oklahoma. Department of Transportation
Abstract:

A large portion of transportation corridor projects use lime and other calcium-based stabilizers to reduce soil plasticity, increase shear strength, reduce compressibility, and reduce volume changes when subjected to variations in water content. While design and construction practices for subgrade stabilization have been standardized, there is no extant quality control measures, particularly measures that are timely, cost effective, and accurate. Therefore, this study was undertaken to evaluate the ability of portable handheld X-ray fluorescence (PXRF) to detect calcium stabilizers in soil samples. The accuracy of Whole Rock XRF (WXRF) was evaluated and used to verify a variety of PXRF measurement techniques, including scan duration, particle size, and sample type. Additionally, the viability of PXRF in measuring soil sulfate content was investigated. It was concluded that the WXRF method is highly accurate in detecting both calcium and sulfate in soils, with average magnitude of deviation between WXRF-determined stabilizer content and actual stabilizer content of 0.3%. While the PXRF method found to be less accurate than WXRF, the average magnitude for clay samples was 2.1% and 10.6% for sand samples. Moreover, the existing calibration libraries do not require slope correction for calcium contents in lower ranges, but do not accurately measure calcium content in higher ranges. The calibration libraries for sulfate detection are able to accurately detect sulfate contents in the range of 0 to 8%, but require individual calibration coefficients.
Format:

PDF
Funding:

ODOT SPR Item Number 2310
Collection(s):

US Transportation Collection
Main Document Checksum:

[+]

urn:sha256:bbf5518c9e65efec0f8915bbe5de38e1e347b169eacc00d20a6539f512bcda20
Download URL:

https://rosap.ntl.bts.gov/view/dot/67200/dot_67200_DS1.pdf
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Using X-Ray Fluorescence to Assess Soil Subgrade Stabilization Competency During Construction Inspection

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