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Posted: November 2, 2009
Airplanes soon will detect own structural damage
(Nanowerk News) Aircraft of the future will be able to "sense" even minute structural fuselage damage, according to a team of German scientists. Heat-sensitive sensors monitoring the aircraft skin will be able to detect any dents or cracks and will then send a radio message to a monitoring unit, say the researchers at the Fraunhofer Institute for Physical Measurement Techniques (IPM) in Freiburg, Germany.
Even minor impacts, say from a bird striking a plane, can deform the structure of the aircraft fuselage, causing stresses in the material which can later turn into cracks. In future, sensors in the aircraft skin will detect such damage at an early stage and simplify maintenance and repair work, say the scientists.
The sensors are light - they do not need any cables or batteries. They draw their energy from the temperature difference between the outside air (about minus 20 to minus 50 degrees Celsius) and the passenger cabin (about 20 degrees Celsius).
Because there are no batteries to change, the sensors can be located at inaccessible places on the aircraft.
"We use thermoelectric generators, developed in cooperation with Micropelt GmbH and adapt them so that they work efficiently," explains Dirk Ebling, a scientist at the IPM.
Thermoelectric materials are semiconductors which generate electric power under the influence of a temperature difference. If a number of these thermoelectric elements are connected in series, enough energy is produced to power small sensors as well as a radio device transmitting the measurement results to a central unit.
"We are also optimizing the heat flow," the research scientist continues.
A key question is how to couple the thermoelectric generator to the warm and cold environments so that it transports enough heat. To obtain the answer the scientists set up a climate chamber in which the temperature profile of the aircraft fuselage is simulated.
The first optimized prototypes have already been built. Development of a prototype of the entire system including the sensor, thermoelectric generator, energy storage device, charging electronics and signal transmission module is scheduled for completion in about three years' time, hopefully enabling the system to enter series production.
The applications for energy-autonomous sensors are numerous. In automobiles they could help to reduce weight by removing the need for heavy cable assemblies. They would also be useful in old buildings, where they could be easily affixed to walls, for example to monitor dampness.
Their use in the medical sector is feasible too. A sensor system integrated in a running shirt could monitor an athlete's pulse during training, and hearing aids could obtain their energy from body heat.