Mirrored Coating

Product Spotlight: Mirror, Mirror on the Wall

Hobby Master’s 1:72 scale USAF Lockheed-Martin F-22A Raptor Air Dominance Fighter – 04-4065, 422nd Test and Evaluation Squadron, 53d Test and Evaluation Group, Nellis Air Force Base, Nevada, November 2021 [Anti-Reflective Coating]

In the world of technological advances, what works one minute may not work the next. Take the Lockheed-Martin F-22 Raptor as a prime example. Billed as a cutting-edge fifth generation fighter, the aircraft may already be showing its age, faced with some unexpected challenges that could put the platform in jeopardy in the not-too-distant future.

In June 2020, the “War Zone” reported that a 401 “Son of Ares” technology demonstration aircraft had conducted multiple test flights over the China Lake Naval Aviation Weapons Center. The surface of the aircraft was covered with a layer of highly reflective metal coating. Its stitching quality is similar to what we saw on this F-22. At the time, the US media assumed that this could be used to test advanced infrared sensors, and even low-power laser systems, as well as the aiming capabilities of these systems for specular reflection targets.

According to the report, the US military is currently conducting a large number of infrared search and tracking systems (IRSTs) tests, which are in the process of early deployment by the US Air Force and Navy. The US military is also developing an air-to-air laser weapon system.

In 2021, scientists developed a new type of stealth coating. This type of stealth coating is a lightweight anti reflective coating based on the structure of a moth’s eye that could make aircraft invisible to radar. The secret to the new coating is the creation of millions of tiny hollow spheres of carbonized sugar, arranged in a tightly-packed hexagonal monolayer. These spheres absorb nearly all radiation used by military targeting radar and law enforcement speed traps.

A coating which is 100 per cent anti-reflective in visible light would appear as a shapeless black mass, while one which had this property in the microwave range would be completely invisible to radar. The secret is the size of the biopolymer beads which form the hollows inside the coating, which at around 6mm are slightly smaller than the wavelengths of microwave and radar beams, and the thickness of the carbon walls that surround them.

Expect this latest technological marvel to land in June.

Share This: