A Purdue University technology that can help predict failures to the integrity of a tire, hose, or other mechanical and medical equipment could help increase automotive safety, improve patient care, and reduce liability costs.
The technology, developed by a team lead by Gary W. Krutz, professor of agricultural and biological engineering, uses a sensor that can predict when a tire or hose is compromised and in danger of breaking up to two weeks in advance.
“Besides natural wear and tear, tires, hoses and seals are subjected to harsh and unpredictable conditions making them susceptible to damage that can cause vehicle road breakdowns and accidents and the same concerns can be said for medical hoses like breathing hoses or tubes,” Krutz says. “The relative cost to replace a hydraulic hose or tire before it breaks down is substantially less if it is replaced before it breaks down. For example, it takes about $100 to replace a hose versus costs of up and greater than $100,000 for one failure occurrence. More important is the safety factor involved in these situations. Preventing a possible engine breakdown or tire blowout caused by a failure in the integrity of a product is paramount.”
According to a 2003 National Highway Safety Traffic Administration report, an estimated 414 fatalities, 10,275 non-fatal injuries, and 78,392 vehicle crashes have occurred annually due to flat tires or blowouts prior to tire pressure monitoring systems were installed in vehicle. In 2007, a federal law took effect that required all newly manufactured light vehicles have a Tire Pressure Monitoring System (TPMS). A 2012 National Highway Safety Traffic Administration report states that vehicles with properly inflated tires accounted were found in 3.4 percent of crashes while 96.6 percent of vehicles involved in a crash had underinflated or overinflated tires.
“The importance of having adequately inflated tires cannot be underscored,” says Brittany Newell, assistant professor of engineering technology. “We propose that the same type of safety issue can be attributed to having tires whose integrity is compromised and susceptible to failure such as a blowout or tearing.”
Newell said the sensor technology shows great promise in detecting similar damage or potential breakage in O-rings and v-belts, thus helping to mitigate engine failures.
“Hydraulic hoses are subject to wear and degradation due to abrasion, cycling fatigue, pressure spikes, UV radiation, and introduction of incompatible fluids to a system,” she says. “This is true with tires, O-rings and v-belts used in all types of machinery such as construction equipment, lawn and garden equipment, mining vehicles, and airplanes.”
The technology has been tested on other components and can be used in rubber products such as vehicle isolators, door and automotive seals and orthopedic devices.
The technology is already being used in hydraulic hoses.
Eaton Corp., a Cleveland-based power management company, licensed Krutz’s technology for its LifeSense sensing product. LifeSense monitors hydraulic hoses to identify the wear and tear of a hose that could lead to a failure. When the integrity of a hose is compromised, a report is automatically sent to user or for repair or replacement. This notification is provided with enough time to replace the hose during planned maintenance and saves downtime, clean-up costs, environmental damage and potential injury.
The “smart” sensor technology also has been tested on more than 100 different products including shoes, airplane wing composites, boat hulls and sporting goods.
“The potential uses of this technology touches nearly every industry,” Krutz says.
The patented technology is available through the Purdue Research Foundation’s Office of Technology Commercialization. Initial research funding for the tire technology came from Purdue University.
Source: Purdue University