Eco-life created by room temperature enamel coating technology.
Nikko has switched the raw materials for its paints from petroleum to quartz and developed inorganic agents centered around its "room temperature enamel coating" technology, expanding into a wide range of markets from electronic components to civil engineering. With the development of civilization and industrial activities, our lives have become more affluent. However, behind that affluence lies the burden on the natural environment, environmental pollution associated with the disposal of industrial waste, and global issues such as climate change, which have become problems on a worldwide scale. Additionally, organic compounds, a general term for petroleum products, particularly paints and coatings, are often used as surface agents, raising concerns about their impact on human health, such as sick house syndrome and the HAZOP issue, making countermeasures urgent. Nikko believes that "inorganic paints" can reduce the burden on the natural environment, protect people's health and safety, and enable a reduction in life cycle costs, and is committed to product development. For more details, please download the catalog or contact us.
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【Product Lineup】 - Fire Preventer <Flame Retardant> - Crystal Stone Series <Concrete Neutralization and Deterioration Prevention Material> Patent Pending - Ultra Surface Concrete Polymer <Concrete Repair and Protection Material> - Ultra Surface System Series <Application-Specific Repair and Protection Material> - Ultra Surface Seal Coat Series <Application-Specific Top Coating Material> - Terios Coat Series <Room Temperature Enamel Coating Material> - Others ● For more details, please download the catalog or contact us.
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For more details, please contact us.
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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.
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