Restore surface strength and beauty without replacing the wood! The ceramic layer prevents wood deterioration.
"Woodycera" is a technology that forms a ceramic layer of about 0.5 millimeters on the surface of wood to prevent the progression of wood deterioration while simultaneously improving the surface strength of the wood. When wood decays, its fibers fray and eventually detach, leading to loss. "Woodycera" reinforces these areas with a ceramic layer, allowing wooden structures to be extended in lifespan without the need for component replacement. 【What Woodycera Can Do】 ■ Revitalize strength and beauty by ceramicizing the wood surface ■ Repair losses due to decay ■ Effectively counteract termite damage at the ground level ■ Maintain the strength of components that cannot be structurally replaced and prevent deterioration ◆ We are currently offering a technical explanation document! Please apply through "Contact Us." ◆
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basic information
【What is Woody Ceramics】 ○ A technology that forms a ceramic layer of about 0.5 mm on the surface of wood, preventing the progression of wood deterioration while improving the surface strength of the wood. ○ When wood decays, the fibers become frayed and eventually detach, leading to loss. By reinforcing these areas with a ceramic layer, it is possible to extend the life of wooden structures without replacing the components. ○ At room temperature, calcium hydroxide and silica, the basic components of glass, react with the help of a catalyst to quickly form a ceramic known as calcium silicate. ○ Calcium silicate is a component found in shells and bones. ● For more details, please contact us or download the catalog.
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Applications/Examples of results
[Usage] ○ As a surface wood modification technology using reactive ceramic coatings ● For more details, please contact us or download the catalog.
Company information
Nikko Corporation has researched and developed a complex gel method that reacts in the same way as sol-gel in the aqueous domain for four years, leading to practical applications. The complex gel technology involves reacting silica sol with organic compositions in the aqueous domain to form organic-synthesized silica membranes. The organically modified silica membranes are highly flexible and breathable, allowing for the formation of thick silica membranes (over 20 microns) and the creation of glass-like materials within wood, making it a company that attracts attention with its rich inorganic chemical technologies.