UTC 2022 Funding - Cycle 2 Research Projects
Project No.: CY3-LTU-04
Title: Rehabilitation of Deteriorated Timber Piles Using Ultra High Performance Concrete
Performing Institution: Louisiana Tech University
Principal Investigator: Roya Solhmirzaei, Louisiana Tech University
Start and Anticipated Completion Dates: 01/01/2026 to 01/15/2027
Abstract: The proposed research focuses on rehabilitating deteriorated timber piles using Ultra High Performance Concrete (UHPC) to extend the service life of aging bridge infrastructure commonly found across rural Louisiana. Timber piles are increasingly affected by environmental and biological degradation, particularly at wet-dry interface zones, as well as physical damage from floating debris, excessive loading, and failure of adjacent piles. Full replacement of the piles is often economically unfeasible, making an effective rehabilitation solution essential due to its lower cost, reduced material usage, and minimal disruption to service.
This project will develop a novel UHPC-based rehabilitation strategy specifically tailored for deteriorated timber piles, with the goal of restoring structural performance, enhancing durability, and enabling practical field implementation. A key technical contribution lies in the development and experimental validation of an effective composite interface between timber and UHPC. Through targeted small-scale experiments, the bond and shear transfer mechanisms at the timber-UHPC interface will be quantified, and optimal surface preparation techniques will be identified to maximize bond performance, an area currently lacking standardized guidance. Large-scale experimental testing will generate a comprehensive dataset on the structural performance of deteriorated timber piles strengthened with UHPC jackets, evaluating the effectiveness of different rehabilitation configurations. These tests will assess critical performance parameters such as axial load-carrying capacity, stiffness recovery, and failure modes, under conditions that simulate field-relevant deterioration.
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