福利姬自慰

Concrete checkup: 福利姬自慰engineering researcher develops diagnostics for bridges, buildings, roads

Photo of Fae Azhari
Assistant Professor Fae Azhari's work helps monitor the structural health of crucial infrastructure such as bridges, roads and hydroelectric dams (photo by Roberta Baker)

Canada will spend $125 billion on infrastructure maintenance and expansion in the next 10 years. Assistant Professor Fae Azhari is helping stretch those dollars farther by keeping our buildings, bridges, roads and reservoirs safe and structurally sound for longer.

Azhari鈥檚 research focuses on structural health monitoring. Just as you visit the doctor for periodic check-ups, structures need their health checked too 鈥 but instead of blood tests and heart rate measurements, engineers usually perform visual inspections and spot-checks with sensors and instruments.

鈥淭he problem with visual inspections is that they鈥檙e pretty subjective, and with periodic monitoring, you can miss certain events or failures,鈥 says Azhari. 鈥淣ow we鈥檙e moving toward continuous monitoring by incorporating permanent sensors on important structures to get real-time data.鈥

Degradation or damage suffered between inspections can have catastrophic consequences. In June 2013, a rail bridge just outside of downtown Calgary partially collapsed as a train was passing over it. The train, carrying flammable and toxic liquids, derailed. Emergency measures were taken to prevent the railcars from falling into the Bow River, which was running high with summer floodwater. The Transportation Safety Board of Canada determined that floodwaters had eroded the soil around the bridge鈥檚 foundations, causing the collapse. This loss of sediment from around foundational supports is called scour.

鈥淏elieve it or not, this happens very often, especially in North America and some Asian countries,鈥 says Azhari. 鈥淪cour is a huge problem.鈥

For her PhD research at the University of California, Davis, Azhari tackled scour from a new angle: she took commercially available sensors that measure dissolved oxygen, typically used for agriculture or biological applications, and used them for sensing scour.

Azhari鈥檚 design was to attach a number of oxygen sensors at increasing depths along the buried length of the bridge pier. If the pier is properly buried, the dissolved oxygen levels detected by the sensors should be very low 鈥 but as scour erodes the sediments and exposes the sensors to flowing water, the dissolved oxygen levels rise. As scour progresses, more and more sensors become exposed, indicating how badly scour is threatening the bridge鈥檚 structural integrity.

She has also worked on concrete sensors, including a design that integrates conductive carbon fibers and nanotubes into concrete, making it a self-sensing material. Measuring the resistance across the material reveals the stresses and strains on it.

鈥淭his technology is well-proven in the laboratory, but moving it to the field is a big challenge,鈥 says Azhari. 

As she builds her research enterprise, Azhari plans to collaborate across disciplines and with key partners who could benefit from her sensors, as well her analysis and insight into the data that comes from them.

鈥淭ransportation infrastructure, utilities, dams, power plants, wind turbines 鈥 basically any engineering system 鈥 needs maintenance and monitoring,鈥 she says.

鈥淚t鈥檚 very important to get these sensors from prototype to implementation, and I want to work on that.鈥

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