Advanced Ceramics / Glass / Instrumentation and Lab Equipment

COMPOSITE INNOVATIONS: Seeing Below the Surface

Infrared themographic image of a nanoengineered composite heated via electrical probes (clips can be seen at bottom of image). The scalebar of colors is degrees Celsius. The MIT logo has been machined into the composite, and the hot and cool spots around the logo are caused by the thermal-electrical interactions of the resistive heating and the logo "damage" to the composite. The enhanced thermographic sensing described in the paper works in the same way. (Credit: Roberto Guzm n de Villoria, MIT & Brian Wardle, associate professor of aeronautics and astronautics. Photo: MIT News Office.)


In recent years, many airplane manufacturers have started building their planes from advanced composite materials, which consist of high-strength fibers (e.g., carbon or glass) embedded in a plastic or metal matrix. Such materials are stronger and more lightweight than aluminum, but they are also more difficult to inspect for damage because their surfaces do not always reveal underlying problems.

"With aluminum, if you hit it, there's a dent," says Brian L. Wardle, associate professor of aeronautics and astronautics at the Massachusetts Institute of Technology (MIT). "With a composite, oftentimes if you hit it, there's no surface damage-even though there may be internal damage."

A Potential Solution

Wardle and his colleagues have devised a new way to detect that internal damage using a simple handheld device and heat-sensitive camera. Their approach also requires engineering the composite materials to include carbon nanotubes, which generate the heat necessary for the test.

As described in the online edition of the journal Nanotechnology, their approach could allow airlines to inspect their planes much more quickly, according to Wardle. This project is part of a multiyear, aerospace industry-funded effort to improve the mechanical properties of existing advanced aerospace-grade composites. The U.S. Air Force and Navy are also interested in the technology, and Wardle is working with them to develop it for use in their aircraft and vessels.

Uncovering Damage

Advanced composite materials are commonly found in cars, bridges and wind turbine blades, as well as aircraft. One method that inspectors now use to reveal damage in advanced composite materials is infrared thermography, which detects infrared radiation emissions when the surface is heated. In an advanced composite material, any cracks or delamination (separation of the layers that form the composite material) will redirect the flow of heat. That abnormal flow pattern can be seen with a heat-sensitive (thermographic) camera.

This method is effective but cumbersome because it requires large heaters to be placed next to the surface, Wardle says. With his new approach, carbon nanotubes are incorporated into the composite material. When a small electric current is applied to the surface, the nanotubes heat up; this eliminates the need for any external heat source. The inspector can see the damage with a thermographic camera or goggles.

"It's a very clever way to utilize the properties of carbon nanotubes to deliver that thermal energy from the inside out," says Douglas Adams, associate professor of mechanical engineering at Purdue University.

Adams, who was not involved in the research, notes that two fundamental challenges remain: developing a practical way to manufacture large quantities of the new material, and ensuring that the addition of nanotubes does not detract from the material's primary function of withstanding heavy loads. So far, the new carbon nanotube hybrid materials that Wardle is developing have shown better mechanical properties, such as strength and toughness, than existing advanced composites.

For more information, visit www.mit.edu.

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