Date of Award

2018-01-01

Degree Name

Master of Science

Department

Civil Engineering

Advisor(s)

Soheil Nazarian

Abstract

The implementation of Intelligent Compaction (IC) in the construction of transportation infrastructure as a tool for quality control of compacted geomaterials has attracted the attention of a number of highway agencies. Compaction quality has been conventionally assessed using density, and to a less extent, modulus-based spot measurements at selected locations along the roadway section. While spot measurements do not provide a thorough rendition of the level of compaction of the roadway, IC technology is effective in meeting full coverage requirements. IC roller measurements are accelerometer-based measurements recording machine-ground interaction assumed to be indicative of the stiffness of the compacted geomaterial. Different studies have attempted to relate IC measurement values with traditional deflection-based in situ moduli with mixed success. Weak correlations between IC measurements and in-situ spot test measurements have been attributed to variation in material properties such as moisture content, influence of depth of spot test penetration and the variation in underlying support, in addition to the uncertainty in the spatial location of the nearest IC data point. In this study, an approach is presented for establishing a spatial relationship between IC and spot test measurements using different nondestructive tests such as the Light-Weight Deflectometer, and the Dynamic Cone Penetrometer, by implementing a fixed interval analysis for the collected IC data that meets a lot size that is suited for contractor rework. This approach shows that a relationship exists between the IC measurements and the spot test measurements.

Language

en

Provenance

Received from ProQuest

File Size

112 pages

File Format

application/pdf

Rights Holder

Luis Alberto Lemus

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