Abstract :
This paper discusses the development of a new aircraft based on a bird´s flying principle. As currently envisioned, the ultra-slim vehicle would be unmanned, solar-powered, and made of strong, lightweight materials. Rather than a metal framework covered by riveted plates and hydraulically actuated parts, the plane´s body and wings would consist of a plastic-like material called an ionic polymer-metal composite, which deforms when exposed to an electric field. If the voltages are applied just right, the material can be made to flap like a wing. On top of the composite wings would be paper-thin sheets of photovoltaic material and lithium-ion batteries, layered on by thin-film deposition. Energy efficiency is the largest benefit in this project. The solid-state aircraft would have many potential uses; gathering scientific data, relaying communications, and surveying terrain are but a few.
Keywords :
aircraft navigation; composite materials; solar powered vehicles; composite wings; energy efficiency; ionic polymer-metal composite; lithium-ion batteries; paper-thin sheets; photovoltaic material; plastic-like material; solar-powered vehicle; solid-state aircraft; ultraslim vehicle; unmanned vehicle; Aerospace materials; Aircraft; Birds; Composite materials; Inorganic materials; Photovoltaic systems; Polymers; Sheet materials; Solar powered vehicles; Voltage;
