Researchers have developed a lattice structure capable of absorbing a wide range of vibrations while also being useful as a load-bearing component—for example, in propellers, rotors, and rockets.
Vibrations from a bus engine, for example, can sometimes feel uncomfortably strong through the seats. Similarly, vibrations from the propellers or rotors in propeller aircraft and helicopters can make the flight bumpy and loud, and also lead to increased fatigue damage to the aircraft and its components. Engineers have wanted to prevent these vibrations in machines, vehicles, and aircraft.
Led by Chiara Daraio, professor of mechanics and materials at ETH Zurich, the researchers made the structure, which has a lattice spacing of around 3.5 mm, out of plastic using a 3D printer. Inside the lattice they embedded steel cubes that are somewhat smaller than dice and act as resonators.
“Instead of the vibrations traveling through the whole structure, they are trapped by the steel cubes and the inner plastic grid rods, so the other end of the structure does not move,” explains Kathryn Matlack, a postdoc in Daraio’s group.
Materials for absorbing vibrations already exist. In vehicles, machines, and household appliances, vibrations are partly absorbed using special, mostly soft materials. The ETH researchers’ vibration-absorbing structure is new because it is rigid and can thus also be used as a load-bearing component, for instance in mechanical engineering or even in airplane rotors and helicopter propellers.
The new structure offers another major advantage too: compared to existing, soft absorption materials, it can absorb a much wider range of vibrations, both fast and slow, and is particularly good at absorbing relatively slow vibrations.
“The structure can be designed to absorb vibrations with oscillations of a few hundred to a few tens of thousand times per second (Hertz)”, says Daraio. “This includes vibrations in the audible range. In engineering practice, these are the most undesirable, as they cause environmental noise pollution and reduce the energy efficiency of machines and vehicles.”
In theory, it would be possible to build such a construction out of aluminum and other lightweight metals instead of plastic, says Matlack. In principle, it would just require a combination of lightweight material, structured in a lattice geometry, and embedded resonators with a larger mass density. The geometry of the lattice structure and the resonators would need to be optimally aligned to the anticipated vibrations.
The vibration absorbers are essentially ready for technical applications, says Matlack, but they are limited insofar as 3D-printing technology is mostly geared toward small-scale production and material properties, such as the load-bearing capacity, cannot yet match those of components manufactured with traditional methods.
Once this technology is ready for industrial use, there is nothing standing in the way of a broader application. A further application could be in wind turbine rotors, where minimizing vibrations would increase efficiency. The technology could also conceivably be used in vehicle and aircraft construction as well as rockets.
The work appears in the Proceedings of the National Academy of Sciences.
Source: ETH Zurich
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