Purdue-invented concrete strength sensing system finalist for Edison Award

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Purdue University professor Luna Lu and a startup she founded, Wavelogix, have developed award-winning technology to improve concrete-paved highways, bridges and other concrete structures. (Purdue University photo/Rebecca Robiños)

WEST LAFAYETTE, Ind. —

A Purdue University invention that could help reduce time and money spent on the construction and repair of concrete highway pavement and other structures has been selected as a finalist for an Edison Award in the Critical Human Infrastructure category. 

The Edison Awards, considered the “Oscars of innovation,” are given annually to “recognize the persistence and excellence that also characterized Thomas Edison’s work.” Previous winners of this award include Honeywell, GoPro, General Motors and 3M. The Purdue invention will receive a gold, silver or bronze award April 18 at the 2024 Edison Awards in Fort Myers, Florida.

The invention is sensors embedded into a fresh concrete pour that can measure the concrete’s strength levels in real time, conveying when highway pavement is strong enough for traffic. These sensors are also being tested and developed for use in bridges, airport runways and buildings to reduce their need for repair and speed up construction timelines.

Luna Lu, Purdue’s Reilly Professor of Civil Engineering, has led development of the sensor technology since 2017. This innovation hit the market Dec. 1, 2023, as the REBEL Concrete Strength Sensing System, a product of Wavelogix. Lu, the chief executive officer of Wavelogix, founded the startup in 2021.

According to the Federal Highway Administration, concrete pavement makes up less than 2% of U.S. roads but approximately 20% of the U.S. interstate system. Though concrete interstate pavement supports much of the nation’s traffic, road construction has caused traffic jams that waste 4 billion hours and 3 billion gallons of gas every year.

The REBEL Concrete Strength Sensing System has the potential to decrease the frequency of concrete pavement repairs and allow roads to open sooner after a fresh pour by providing a better understanding of the concrete’s strength levels and precisely determining when the pavement is strong enough to handle heavy traffic.

This sensor system may be the most effective alternative to concrete strength tests that have been in use for more than 100 years. Engineers would no longer have to test large samples of concrete at a lab or onsite facility to estimate the strength level that a concrete mix will reach after it’s been poured and left to mature. Rather, these sensors would be put into a concrete pour and plugged into a handheld device that logs concrete strength data, which provides the ability to directly monitor fresh concrete and accurately measure many of its properties at once. 

Highways and bridges using this technology could last longer, which would further reduce repairs, the traffic the repair work causes, and millions of taxpayer dollars spent on these repairs. Cutting down on traffic would also reduce carbon dioxide emissions that vehicles would have emitted while waiting to get around a construction site. In decreasing road repairs, the technology has the potential to reduce 1 billion tons of carbon emissions globally by cutting up to 20% of cement in concrete mixes. 

The sensor system has already garnered prestigious recognition on TIME’s Best Inventions of 2023 list. Additionally, Fast Company magazine named this invention one of its Next Big Things in Tech for 2022, and the American Society of Civil Engineers’ 2021 Report Card for America’s Infrastructure selected the technology as one of its “Gamechangers” for the year.

More than half of U.S. states with concrete interstate pavement are currently participating in a Federal Highway Administration study to implement the sensor system, including Indiana, Missouri, North Dakota, Kansas, California, Texas, Tennessee, Colorado and Utah. In 2023, the sensors were added to the future I-465 interchange to I-69 south on Indianapolis’ south side.

Wavelogix licenses this innovation from the Purdue Innovates Office of Technology Commercialization, which has applied for patent protection on the intellectual property.

About Purdue University

Purdue University is a public research institution demonstrating excellence at scale. Ranked among top 10 public universities and with two colleges in the top four in the United States, Purdue discovers and disseminates knowledge with a quality and at a scale second to none. More than 105,000 students study at Purdue across modalities and locations, including nearly 50,000 in person on the West Lafayette campus. Committed to affordability and accessibility, Purdue’s main campus has frozen tuition 13 years in a row. See how Purdue never stops in the persistent pursuit of the next giant leap — including its first comprehensive urban campus in Indianapolis, the new Mitchell E. Daniels, Jr. School of Business, and Purdue Computes — at https://www.purdue.edu/president/strategic-initiatives

Writer: Ellie Acra
Media contact:
 Kayla Albert, 765-494-2432, wiles5@purdue.edu
Source: Luna Lu, luna@purdue.edu

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