MANTI® CERAMIC is a family of micro-layered thermal barrier materials. Incorporated microspheres are high-performance thermal insulators with unique properties that surpass conventional materials. The hollow vacuum microceramic spheres due to their nano-scale wall thickness almost completely inhibit the flow of heat.
Ceramic microspheres dominate insulation by simultaneously attacking all heat transfer modes (conduction/convection/radiation) at multiple length scales. Their tunable nanostructure and compatibility make them the material of choice for extreme environments, from spacecraft to skyscrapers.
Each step shown in the diagram demonstrates how MANTI®CERAMIC disrupts all heat transfer mechanisms (conduction, convection, and radiation) across multiple length scales, making it exceptionally efficient for thermal protection.
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Infrared radiation enters the surface and interacts with the nano-structured ceramic spheres.
The smooth ceramic microsphere walls reflect a large portion of the heat wave (λ = 1–50 μm) away from the surface.
Any penetrating energy is scattered and absorbed within the hollow, vacuum-filled sphere — minimizing heat transfer.
Remaining energy is diverted and weakened by the multi-layered structure, ensuring ultra-low conductivity.
Ceramic microspheres enhance thermal insulation by disrupting conduction, convection, and radiation simultaneously.
Advanced nano-porous structure ensures maximum thermal resistance with minimal material thickness.
MANTI®CERAMIC is a super-thin thermal barrier material (600–1500 microns) that is quickly and easily applied. It supports sustainable development and is environmentally friendly.
At the nano-scale, porous thermal control materials no longer follow conventional laws of heat dissipation, requiring the development of entirely new and unconventional measurement methods.
Minimum Thermal Shield
Optimal Insulation Layer
Extreme
Heat Defense
Ceramic microspheres dominate insulation by simultaneously attacking all heat transfer modes (conduction/convection/radiation) at multiple length scales. Their tunable nanostructure and compatibility make them the material of choice for extreme environments, from spacecraft to skyscrapers.
Ceramic microspheres dominate insulation by simultaneously attacking all heat transfer modes (conduction/convection/radiation) at multiple length scales. Their tunable nanostructure and compatibility make them the material of choice for extreme environments, from spacecraft to skyscrapers.
The micro coating works through 10+ thermal control mechanisms, but its main strength lies in thermal reflection and ceramic microsphere heat dissipation.
Traditional tools like heat flow meters or hot plates cannot measure its full performance, since it operates on non-conventional principles, not just on conduction resistance.
Performance from reflection and dissipation
Effect linked to conduction control
Accuracy of traditional test tools for thin coatings
Outperforms traditional insulation — equals 15 cm rock wool or 10 cm polystyrene with ultra-thin coating.
White by default, colorable with inorganic pigments for lasting color integrity.
Bonds to concrete, brick, wood, metal, plastic, glass, slate, bitumen & more.
UV and weatherproof with long-term durability, indoors and outdoors.
Perfect for sealing thermal bridges with easy repair and reapplication.
Thermal performance is continuously measurable and controllable.
Available in flexible formats for tents, tarpaulins, and mobile solutions.
Ideal for historic buildings — preserves structure without heavy insulation.
MANTI®CERAMIC thermal protection materials based on our nanotechnology, that has been continous development witch encompasses all the construction industry for indoor and outdoor use, as well as technological coatings for industrial applications.