DinaMantan

Heat_Emission

Heat Emission

Visual proof of faster heat release from coated versus uncoated surfaces.

A quadcopter drone in flight, featuring four propellers attached to a sleek, metallic body. The camera at the front is prominently visible, and the background is slightly blurred with natural elements, suggesting it is outdoors.
A stainless steel thermos is placed on a snowy surface with a backdrop of snow-covered branches and a clear blue sky. Sunlight is creating a bright reflection on the snow and the thermos.
A military vehicle is positioned in an open field, launching a missile into the sky. The missile is in mid-air, with bright flames and smoke trailing from its base, indicating active launch. The vehicle is painted with camouflage colors, blending with the surrounding dry grass and leafless trees.
Reflective foil-like materials wrapping around and creating uneven surfaces with green stick-like elements protruding throughout.

Heat Release

Dinamantan-coated surfaces shed heat swiftly, blending seamlessly with ambient temperatures to evade detection.
A drone with multiple rotors is flying against a bright white background. The structure of the drone is visible, showing intricate machinery and a mounted camera. Sunlight reflects off its metal parts, creating a lens flare effect.

Temperature Match

Our coating helps objects adjust their surface temperature faster, making them nearly invisible to thermal cameras.
A group of people wearing protective face shields surrounds a person engaged in welding. Bright sparks and blue light emanate from the welding area, while smoke rises. The setting appears to be indoors with high ceilings and industrial elements, such as visible beams and windows.

Rapid Cooling

Objects treated with Dinamantan cool down quicker, reducing their thermal signature in critical moments.
A metallic vent panel on a textured pebble-covered wall, partially covered with blue spray paint in a graffiti style.