Abstract
Continuous inspection of the concrete structures is important for extending the operating life span of nuclear power plants. Restricted physical accessibility to the nuclear plant structures, due to concerns of radiation, presents a unique challenge to the conventional visual inspection and contact-type nondestructive evaluation (NDE) technologies. Digital image correlation (DIC) is an optical NDE method that can measure the structural parameters such as displacement and strain. However, it is highly challenging to accurately detect micro displacement on the concrete surface because of weathering and change in illumination conditions. Usually, an artificial speckle pattern with good contrast to the object surface is needed for calibration and tracking, but it is difficult to apply in the field. In order to be able to detect micro surface strain for crack prediction in outdoor environment, a DIC-based NDE technology is developed to significantly improve the measurement accuracy by incorporating the orientation code matching (OCM) technique, a robust and accurate template matching algorithm. Concrete specimens were built and tested under four-point bending. Using the remotely measured images, the OCM incorporated DIC method successfully predicted concrete cracks before they emerged on the surface. The experiments also demonstrated the robustness of the method against the optical noise including weathering and change in illumination conditions.
Highlights
Built in the late 1970s, the U.S fleet of 100 commercial nuclear power reactors is middle-aged
In an environment without optical noise (Type 1 condition), the displacement/strain measurement obtained by the orientation code matching (OCM) incorporated Digital image correlation (DIC) method and the conventional DIC methods were used for crack prediction
The conventional DIC methods and the OCM incorporated DIC method were applied to images of surface deformation captured before cracking
Summary
Built in the late 1970s, the U.S fleet of 100 commercial nuclear power reactors is middle-aged. Non-contact NDE methods based on DIC can be applied for remote, continuous monitoring (or periodic inspection) of micro displacement on the concrete surface. The OCM technique was developed and its effectiveness was demonstrated through several outdoor field experiments for real-time, remote monitoring of bridge dynamic displacements in varying lighting conditions (Fukuda, Feng, Narita, Kaneko, & Tanaka, 2013) (Feng, Fukuda, Feng, & Mizuta, 2015) (Feng, & Feng, 2015). In this project, specimens of reinforced concrete beams were fabricated in the laboratory. The OCM incorporated DIC method is compared with the DIC methods with regard to robustness against optical noise in simulated outdoor environment
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