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7 Innovations for Pothole Patches That Promise to Smooth Streets—for Good
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7 Innovations for Pothole Patches That Promise to Smooth Streets—for Good

by Sarah Jones
Infrastructure - May 14 2019 - 5 min read
pothole patch the pothole terminator mechanical concrete
The Pothole Terminator. Courtesy Mechanical Concrete.

To paraphrase a wise old proverb, the road to hell is paved with potholes.

It’s a vicious spring cycle: As winter snows melt, water and ice seep into roads, freezing and thawing and expanding and contracting until street surfaces collapse, revealing a lunar landscape of craters that transform a simple morning commute into a video-game bonus round of Super Mario Kart.

To beleaguered drivers, potholes are an unavoidable nuisance. (Their grip on New England roads is so legendary that ice-cream chain Friendly’s offers a seasonal Nor’Easter Pothole Sundae complete with a side of chocolate rubble.) Pothole damage costs US motorists more than $3 billion annually in repairs and can cripple entire freeways, cities, and even airports.

pothole patch
To drivers everywhere, potholes are the pits.

But potholes are more than just an annoyance: They present a real threat to the lives of both motorists and pedestrians. Potholes are blamed for up to a third of highway fatalities in the US alone. And in India, where they’re blamed for killing 10 people a day, they’ve been dubbed “more deadly than terrorism.”

The common approach to pothole repair is a low-tech “throw-and-go” method of shoveling a patch material—usually asphalt—into a hole and smoothing it over with a truck. It’s a low-cost-but-temporary fix. However, long-term relief could be in sight, thanks to new methods and materials that promise to make repairs happen faster, extend the lifespan of patches, and maybe even prevent potholes from happening in the first place.

1. Streets Could Get a Little More Sensitive

The first step in repairing potholes is knowing they exist. That step could be automated if the ePave network of self-powered road sensors becomes a reality. A joint project between the University at Buffalo and China’s Chang’an University, the ePave system relies on wireless road sensors powered by piezoelectricity, meaning they can generate a charge from mechanical vibrations created by vehicles. The sensors, which are about the size of key fobs, sense moisture, pressure, and other problem indicators and feed real-time data to local agencies. Early experiments suggest the sensors could function across a 20-year lifespan. Read the article.

2. Blockchain Lets Motorists Take Matters Into Their Own Hands

When your tax dollars don’t seem to cover enough infrastructure repairs in your town, the crowdfunding world is here to disrupt the pothole space. California startup PotholeCoin wants to empower motorists to fund location repairs through a combination of community crowdsourcing, smartphone apps, digital tokens, and automation. It works like this: Drivers log potholes in an app, offering up bounties to fund repair. When an appropriate cumulative total is reached, the app alerts a “maintenance organization” (which can be public or private) that completes the repair and is paid by the app. The platform is being tested using PayPal and will roll out a cryptocurrency model in its second phase. Read the article.

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3. In-Car AI Could Get Potholes Fixed Faster

Step aside, Tron: Automotive supplier CarVi is developing an in-car Artificial Intelligence (AI) system that detects and reports potholes in real time. In the system—built into CarVi’s collision-warning device—a nine-axis motion sensor integrated into a windshield camera scans the road ahead for both existing and emerging potholes, analyzes the information using advanced transfer and deep-learning techniques, and sends data to local infrastructure agencies. A San Francisco test run uncovered 300 potholes. CarVi is working with federal transit agencies to develop algorithms that prioritize road hazards and identify problem spots. Read the article.

4. Tapping Into the Power of Microwaves and Magnetics

Larry Zanko, a geological mining engineer and senior fellow at the University of Minnesota Duluth’s Natural Resources Research Institute, is developing two pothole-repair solutions that take advantage of magnetite, an iron ore sourced from Minnesota’s mines.

The first method, which works on asphalt roads, uses microwaves to heat potholes and the pavement around them, then fills the holes with a mix of magnetite and recycled asphalt; the patch is microwaved again to create a seal. The second method, designed for both concrete and asphalt roads, involves pouring a water-activated magnetite-and-aggregate mix into a hole, without heating. Test applications of both solutions held up for more than a year. Read the article.

5. The Pothole Terminator Kills Craters Dead

Why just patch a pothole when you can terminate it? The Pothole Terminator, an extension of Mechanical Concrete construction technology, uses cylinders made from waste auto tires to confine crushed stone or other aggregates into permanent building units that strengthen road foundations and inhibit the creep of materials that inevitably leads to structural collapse. The permanent structures are strong, permeable, and erosion-resistant—and with nearly 300 million automotive tires heading to US landfills each year, a welcome green initiative. Read the article.

See Also: How a Korean Fuel Cell Technology Project Builds Clean Power and Social Value

6. Bacteria Enter the Battle

The United States dumps nearly 20 million tons of salt on roads each winter—that’s 123 pounds for every American. And while salt is an effective (albeit environmentally controversial) tool for melting snow and ice, it takes a huge toll on roads in the form of cracks, bumps, and potholes. But researchers at Drexel University might have hit on a way to combat those destructive effects with the help of bacteria.

Treating roads with salt creates calcium oxychloride, which expands in concrete and causes cracks that allow water to seep in and wreak havoc as temperatures fluctuate. But when researchers enhanced concrete with Sporosarcina pasteurii bacteria, the process raised the material’s pH, and the interaction with salt created a less harmful byproduct: calcium carbonate, aka limestone. In experiments, the microbially enhanced concrete did not crack when treated with calcium chloride, although more research is needed to determine how long the protective effects will last. Read the article.

7. Drones and 3D Printers: A One-Two Pothole Punch?

Like a tooth cavity, the earlier you catch potholes, the easier they are to repair. Researchers at Leeds University in the UK are testing a system that uses cameras equipped with image recognition to inspect streets for problems, then deploys 3D-printer-equipped drones to patch up holes right when they crop up. Taking it a step further, partner researchers from University College London equipped a Leeds hybrid aerial-ground vehicle with an asphalt extruder capable of one-millimeter accuracy. The experiments are part of a multiuniversity project that’s exploring ways robots can assist with infrastructure repair and other tasks in self-repairing cities. Read the article.

#Automotive - #Civil Engineering - #Drones - #Materials - #Transportation

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