MANTI coating system represents a breakthrough in industrial protection, combining nano-engineered ceramic spheres with advanced polymer chemistry to deliver unmatched performance in the harshest environments.
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.
Millions of hollow ceramic spheres form a microscopic insulation barrier, delivering up to 40% higher R-value than standard coatings.
Lowers surface temperatures by 30°C or more in high-exposure environments, significantly reducing heat stress on materials.
Performs consistently from -20°C to 100°C, maintaining thermal integrity under both freezing and extreme heat conditions.
Tested to endure over 10,000 hours of salt spray exposure—providing unmatched protection in marine and industrial environments.
The impermeable ceramic matrix forms a tough barrier that blocks water, salts, and chemicals from penetrating the surface.
Prevents galvanic corrosion in structures using mixed metals—ideal for complex industrial and structural applications.
Formulated to be harder than standard epoxy coatings, providing maximum resistance against physical damage and surface wear.
Withstands 50+ MPa of abrasive pressure, making it ideal for high-traffic, high-impact surfaces in industrial environments.
Features a self-healing property that minimizes scratch propagation and extends the aesthetic and functional life of the coating.
Hydrophobic ceramic spheres actively repel water, oils, and contaminants—keeping surfaces cleaner for longer with minimal upkeep.
Inorganic UV-resistant formula maintains color and integrity without chalking or degradation—even under harsh sun exposure.
Specially engineered anti-static formulation reduces the risk of sparks and static buildup—perfect for explosive or flammable environments.
The single-coat system eliminates the need for multiple layers, saving up to 50% in labor time and reducing project costs.
Cures in just 90 minutes at 5°C, with no external heat required—ideal for cold-weather projects and time-sensitive work.
*influenced by relative humidity
Can be applied directly over most substrates, allowing seamless recoating with zero interruption to operations.
Semiconductor fabs, aerospace
Smelters, kilns, mining equipment
Bridges, tunnels, offshore platforms
LNG tanks, flare stacks, geothermal piping
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.
won't degrade like organic coatings
to steel/concrete prevents delamination
(500μm) achieves better protection than 2mm conventional coatings
Our MANTI Ceramic Spheres Coating Technology is a precision-engineered system tailored to your specific industrial challenges. Here’s why leading manufacturers and facility operators consult our technical team
Material Science Expertise: We adjust ceramic sphere density, size (50nm–200μm), and matrix composition to match your
CFD/Hygrothermal Analysis: We simulate
Lifecycle Cost Analysis: We prove value through
Don’t settle for generic coatings.
Our team transforms your operational challenges into engineered solutions.
Differentiator: This positions your team as problem-solving partners rather than product vendors, appealing to engineers and operations managers who need solutions rather than sales pitches. The emphasis on predictive modeling and customization addresses the #1 pain point in industrial coatings – mismatched solutions causing premature failures.
30-minute discovery call with a coatings engineer
Analysis of your current corrosion/failure points
Real-world coating trials with performance monitoring